Sample_description

Metadata field: sample_description

Studies:

Lee_2024_house_dust (879 samples)
Gusareva_2019_air (783 samples)
Shaffer_2021_EMP500 (586/817 samples)
Sullivan_2023_air_Sweden (380 samples)
151 other studies (6259 samples)

Value	Count
Keywords: GSC:MIxS;MIMS:5.0	1490
Vaccuum dust from bedding and floor adjacent to bed	879
soil metagenome	287
Metagenomic leaf sample of NCLB infected maize	256
Table surface swab collected from food centre	226
Keywords: GSC:MIxS;MIMS:6.0	184
Density fractionated DNA	157
aerobic sludge	90
hospital effluent	72
Sandy organic material	66
long-term incubation exposed to xenobiotics	62
conventional farming	60
intensively used grassland	60
organic farming	60
lake sediment core samples	56
Terra Nova:Summer	53
Mangrove sediments in the Qi'ao Mangrove Wetland Park of Guangdong province, China	50
Soils collected from an engineered column created to test how different plant species affected nitrogen removal rates through the column and the microbial population within the soil. Samples were collected from the "Top" zone affected by plant roots, and a "Bottom" zone where plant roots were not affecting the soil.	49
Hibernia:Summer	47
cleandata	39
Thebaud:Summer	38
Whole body tissue	38
shotgun	36
Bacterioplankton	34
Rhizosphere	32
benthic detritus inside bromeliad tank, aquatic, sludge-like	31
Chinese kimchi	30
Korean kimchi	29
core sample	26
Anodic-chamber planktonic community from a poised-anode electrochemical cell inoculated with sediment from a uranium-contaminated groundwater aquifer in Rifle, CO, USA.	24
forest soil metagenomics	24
Hibernia:Winter	22
Mature grapevines with trunk diseases symptoms in commercial vineyard conditions	22
Rhizoplane	22
Terra Nova:Winter	21
Thebaud:Winter	21
surface soil	21
sediment from Iberian Abyssal Plain	20
Boreal forest soil sample from 1.75cm depth, in active layer above permafrost	18
In this study, we revealed the core resistome disseminating from hospital wastewater to the aquatic environment by characterising the trail of resistome, plasmidome, mobilome and virulome, as well as elucidating their different resistome risks.	18
Supratidal beach sample from Bay 106; Undisturbed control	16
control blank	16
Sampling from Inner Mongolia	15
Sampling from Mongolia	15
pitcher plant fluid	15
soil sample from high elevation sites in the Mustang Region in Nepal	14
Keywords: GSC:MIxS;MIGS:5.0	13
Metagenome from Rimov reservoir, 0.22um, 0.5m	13
Metagenome from Rimov reservoir, 0.8um gravity filtration, 0.5m	13
Metagenome from Rimov reservoir, 5um, 0.5m	13
sediment was collected from coastal Antarctica and then DNA extracted and shotgun metagenomics sequencing was performed.	13
Illumina HiSeq1500 shotgun-sequencing	12
Mica schist surface metagenome	12
Supratidal beach sample from Bay 106; Test plot IMCe	12
Supratidal beach sample from Bay 106; Test plot IMEc	12
Supratidal beach sample from Bay 106; Test plot IMEe	12
USGS 02226160 Altamaha River at Everett City, GA	12
USGS 04264331 St. Lawrence River at Cornwall, Ontario, near Massena, NY	12
USGS 07374525 Mississippi River at Belle Chasse, LA	12
USGS 14246900 Columbia River near Beaver Army Terminal, OR	12
lichen thallus	12
soil samples from high elevation sites post Puca Glacier retreat in Peru	12
sub-surface soil	12
subsurface soil	12
Supratidal beach sample from Bay 106; Test plot IMCc	11
5 um fraction	10
Gravel sample from Namibia	10
Sandy site. Samples include 0-5 and 20-30 cm depths	10
Sediment sample taken from just above water line at north and south sampling locations at Hanford 300 area	10
silt loam site	10
180µm-0.2 µm water fraction	9
Azolla filiculoides kept in culture	9
Corn Beer Fermentation Bioreactor Biomass	9
Dune sand from Namibia	9
Glacial transect	9
USGS 15565447 Yukon River at Pilot Station, AK	9
Unfractionated DNA	9
Algae swab from Palmyra	8
seawater passed through 0.2um filter	8
temperature ramp	8
2L seawater filtered onto 0.2 uM	7
FireAffected	7
Freshwater sediment core slice, Uncas Pond, MA. Aseptically collected subsample.	7
Organic, no agrochemicals are used	7
San Diego Bay	7
Supratidal beach sample from Ragged Island; Undisturbed control	7
The Amazon region has the largest hydrographic basin on the planet, the one that includes Amazon River. Besides, it shows a great biological diversity, including related to microorganisms, however, they are poorly studied. The microorganisms are responsible for most of the biogeochemical cycles that determine the terrestrial environment and the freshwater and marine ecosystems, and they can be largely explored in biotechnology. In this work it was used DNA extracted from Solimoes river filtered water, to study the microbial diversity, using metagenomics approaches.	7
hospital wastewater metagenome	7
sediment from Guatemala Basin	7
0.22 um fraction	6
Azolla filiculoides rid of cyanobacteria	6
Central Appalachian	6
Freshwater sediment core slice from Doe Pond MA. Aseptically collected subsample.	6
Freshwater sediment core slice from Pickerel Pond MA. Aseptically collected subsample.	6
Keywords: GSC:MIxS;MIMARKS:5.0	6
Mature grapevines in commercial vineyard conditions	6
Metagenome from Rimov reservoir, 0.22um, 30m	6
Metagenome from Rimov reservoir, 0.8um gravity filtration, 30m	6
Metagenome from Rimov reservoir, 5um, 30m	6
highly-contaminated	6
non-contaminated	6
replicate 1	6
replicate 2	6
replicate 3	6
surface sediment metagenome	6
Bacteria cultured on regular media in soil 6w after crude oil addition	5
Crude oil Cultivated bacteria in soil 6 w after crude oil addition	5
Initial microbiome in soil 6w after crude oil addition	5
PRB	5
Supratidal beach sample from Crude Oil Point; Undisturbed control	5
rawdata of Lake Fuxian sample	5
LAB_O3_Lab_Overhead_3	4
Lake Malaren (Brostugan)	4
N1_O4_Node_1_Overhead_4	4
N3_F4_Node_3_F4_location_in_from_of_the_WHC	4
Node_1_Dining_Table	4
Node_2_Port_crew_quarters_Bump-Out_exterior_aft_wall	4
Node_3_ARED_Foot_platform	4
PMM_P1_PMM_Port_1	4
Port_panel_next_to_cupola_In_Node_3_next_to_the_cupola_on_the_way_down_into_the_cupola_on_the_port_panel	4
Shotgun metagenomic sequencing of Boi-le-Roi lake water column with DNA extraction	4
Shotgun metagenomic sequencing of Cergy - small lake water column with DNA extraction	4
Shotgun metagenomic sequencing of Champs-sur-Marne lake water column with DNA extraction	4
Shotgun metagenomic sequencing of Créteil lake water column with DNA extraction	4
Shotgun metagenomic sequencing of Jablines lake water column with DNA extraction	4
Shotgun metagenomic sequencing of La Grande-Paroisse lake water column with DNA extraction	4
Shotgun metagenomic sequencing of Vaires-sur-Marne lake water column with DNA extraction	4
Shotgun metagenomic sequencing of Verneuil-sur-Marne lake water column with DNA extraction	4
Supratidal beach sample from Crude Oil Point; Oiled test plot T1	4
bacterioplankton fraction determined from DNA extract of water sample from Zhongda sampling station	4
biomass 0.1-0.2um	4
Azolla caroliniana kept in culture irri.og CA3004	3
Azolla caroliniana kept in culture irri.org CA3017	3
Azolla mexicana kept in culture irri.org ME2001	3
Azolla microphylla kept in culture irri.org MI4021	3
Azolla nilotica kept in culture irri.org NI5001	3
Azolla rubra kept in culture irri.org RU6502	3
Copenhagen, Denmark	3
El Paso, TX, USA	3
Filtrate of 1 L ditch Water, inhabited by Azolla filiculoides	3
Hornungia_alpina_10years	3
I.ramose: 1tube of bacterial pellet called IRC1bac and 10 tubes of tissue called IRC1.1 to IRC1.10	3
Illumina sequencing	3
Initial soil microbiome	3
Keywords: GSC:MIxS;MIMARKS:6.0	3
Lake Malaren (Drottingholm)	3
Manitowoc wastewater treatment plant effluent (0.22um filter)	3
Marine sediment microbial communities from subtidal zone of North Sea	3
P.heteropahis: 1tube of bacterial pellet called PER1bac and 10 tubes of tissue called PER1.1 to PER1.10	3
Papaver alpinum_10years	3
S.flabelliformis: 1tube of bacterial pellet called STY1bac and 10 tubes of tissue called STY1.1 to STY1.10	3
Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at West Creek underlying tall Spartina alterniflora	3
Sedum atratum_10years	3
Sheboygan wastewater treatment plant effluent (0.22um filter)	3
Shotgun metagenomic sequencing of Cergy - large lake water column with DNA extraction	3
Soil_DS_10years	3
Total biomass from Enhanced Biological Phosphorus Removal bioreactor	3
backwater site	3
river water, also for drinking	3
riverine site	3
soil from directly below planted Jatropha curcas in research plantation	3
soil from directly below planted Musa acuminata in research plantation	3
soil from directly below planted tenera type African oil palm	3
soil from directly below planted wildtype African oil palm	3
surface sediment (top 1 cm)	3
'MIS 2016 July ''omics samples 250-281 white'	2
1L seawater filtered onto 0.2 uM	2
A Mobio kit was used for DNA extraction	2
Anode biofilm sample from a poised-anode electrochemical cell inoculated with sediment from a uranium-contaminated groundwater aquifer in Rifle, CO, USA.	2
Belem, Brasil	2
Black Warrior Basin	2
Bulk soil	2
C.foliascens: 1tube of bacterial pellet called CAR1bac and 10 tubes of tissue called CAR1.1 to CAR1.10	2
C.foliascens: 1tube of bacterial pellet called CAR2bac and 10 tubes of tissue called CAR2.1 to CAR2.10	2
C.foliascens: 1tube of bacterial pellet called CAR3bac and 10 tubes of tissue called CAR3.1 to CAR3.10	2
C.foliascens: 1tube of bacterial pellet called CAR4bac and 10 tubes of tissue called CAR4.1 to CAR4.10	2
C.matthwesi: 1tube of bacterial pellet called COS1bac and 10 tubes of tissue called COS1.1 to COS1.10	2
C.matthwesi: 1tube of bacterial pellet called COS2bac and 10 tubes of tissue called COS2.1 to COS2.10	2
C.matthwesi: 1tube of bacterial pellet called COS3bac and 10 tubes of tissue called COS3.1 to COS3.10	2
C.matthwesi: 1tube of bacterial pellet called COS4bac and 10 tubes of tissue called COS4.1 to COS4.10	2
C.orientalis: 1tube of bacterial pellet called CLI1bac and 10 tubes of tissue called CLI1.1 to CLI1.10	2
C.orientalis: 1tube of bacterial pellet called CLI2bac and 10 tubes of tissue called CLI2.1 to CLI2.10	2
C.orientalis: 1tube of bacterial pellet called CLI3bac and 10 tubes of tissue called CLI3.1 to CLI3.10	2
C.orientalis: 1tube of bacterial pellet called CLI4bac and 10 tubes of tissue called CLI4.1 to CLI4.10	2
Cameroon: High Rainfall	2
Cameroon: Savannah	2
Cathodic-chamber planktonic community from a poised-anode electrochemical cell inoculated with sediment from a uranium-contaminated groundwater aquifer in Rifle, CO, USA.	2
Chondrilla australiensis: 11 tubes: CHO1 is the bacterial pellet, tubes CHO1.1 - CHO1.10 are replicate tissue samples	2
Chondrilla australiensis: 11 tubes: CHO2 is the bacterial pellet, tubes CHO2.1 - CHO2.10 are replicate tissue samples	2
Chondrilla australiensis: 11 tubes: CHO3 is the bacterial pellet, tubes CHO3.1 - CHO3.10 are replicate tissue samples	2
Entire visceral mass taken	2
Freshwater metagenome from Lake Zurich, Switzerland; 5 m depth, 03-Apr-2019	2
Gabon: High Rainfall	2
Gabon: Savannah	2
Gill taken from the shipworm species Bankia setacea	2
I.ramose: 1tube of bacterial pellet called IRC2bac and 10 tubes of tissue called IRC2.1 to IRC2.10	2
I.ramose: 1tube of bacterial pellet called IRC3bac and 10 tubes of tissue called IRC3.1 to IRC3.10	2
I.ramose: 1tube of bacterial pellet called IRC4bac and 10 tubes of tissue called IRC4.1 to IRC4.10	2
Intensive. Agrochemicals used: cupric oxide (Hidromet Flo, Tacsa, Mexico) as a fungicide, Astro 34% Permethrin as insecticide (FMC, USA), foliar fertilizers Nutri Wunder 12-62-00 (AgroScience, Mexico), Syntek immunopotentializer foliar fertilizer (AgroScience, Mexico), CaB fertilizer (Dragon, Mexico), MAXI-Grow biostimulant (Agrozar, Spain), adherent Fixed-Gro (Agroscience, Mexico. Soil fertilization: organic pig and cow manure (once a year).	2
Lake Baikal represents the deepest (1637 m) and largest fresh liquid water volume (23,000 km3) in Earth (20% of the unfrozen freshwater). This study describes the microbial communities of the Lake using high throughput sequencing. 30 L of water were filtered through the net (size 27 microns) and through nitrocellulose filters with a pore size of 0.22 microns. DNA was extracted from the 0.22 micron filter (small, planktonic fraction) filter to obtain genomic DNA of the microbial community.	2
Lake M�laren (Brostugan)	2
NextSeq1 was a re-sequence of some samples from ELF001A. This was a pool of previous negative controls.	2
Nigeria: High Rainfall	2
Nigeria: Savannah	2
P.heteropahis: 1tube of bacterial pellet called PER2bac and 10 tubes of tissue called PER2.1 to PER2.10	2
P.heteropahis: 1tube of bacterial pellet called PER3bac and 10 tubes of tissue called PER3.1 to PER3.10	2
P.heteropahis: 1tube of bacterial pellet called PER4bac and 10 tubes of tissue called PER4.1 to PER4.10	2
Recovered	2
S.flabelliformis: 1tube of bacterial pellet called STY2bac and 10 tubes of tissue called STY2.1 to STY2.10	2
S.flabelliformis: 1tube of bacterial pellet called STY3bac and 10 tubes of tissue called STY3.1 to STY3.10	2
S.flabelliformis: 1tube of bacterial pellet called STY4bac and 10 tubes of tissue called STY4.1 to STY4.6	2
Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at Clubhead Creek underlying tall Spartina alterniflora	2
Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at Nelson Creek underlying Spartina patens	2
Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at Sweeney Creek underlying Spartina patens	2
Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at West Creek underlying Spartina patens	2
Siphons taken from specimen, representative of surface microbial community (negative control for gill and visceral mass samples)	2
Supratidal beach sample from Bay 11; Undisturbed control	2
Supratidal beach sample from Crude Oil Point; Oiled test plot T2	2
The STE method was used for DNA extraction	2
kimchi (from Ireland)	2
kombucha (from Ireland)	2
saurkraut (from Ireland)	2
soil from directly below planted wildtype Jatropha curcas	2
'Abidjan, Cote d''Ivoire'	1
'MIS 2016 July ''omics samples 250-281 purple'	1
'N''Djamena, Chad'	1
'O'' Connor lake sample, mineral layer, OM0C0 treatment, replicate 1'	1
'O'' Connor lake sample, mineral layer, OM0C0 treatment, replicate 2'	1
'O'' Connor lake sample, mineral layer, OM0C0 treatment, replicate 3'	1
'O'' Connor lake sample, mineral layer, OM1C0 treatment, replicate 1'	1
'O'' Connor lake sample, mineral layer, OM1C0 treatment, replicate 2'	1
'O'' Connor lake sample, mineral layer, OM1C0 treatment, replicate 3'	1
'O'' Connor lake sample, mineral layer, OM2C0 treatment, replicate 1'	1
'O'' Connor lake sample, mineral layer, OM2C0 treatment, replicate 2'	1
'O'' Connor lake sample, mineral layer, OM2C0 treatment, replicate 3'	1
'O'' Connor lake sample, mineral layer, OM3C0 treatment, replicate 1'	1
'O'' Connor lake sample, mineral layer, OM3C0 treatment, replicate 2'	1
'O'' Connor lake sample, mineral layer, OM3C0 treatment, replicate 3'	1
'O'' Connor lake sample, organic layer, OM0C0 treatment, replicate 1'	1
'O'' Connor lake sample, organic layer, OM0C0 treatment, replicate 2'	1
'O'' Connor lake sample, organic layer, OM0C0 treatment, replicate 3'	1
'O'' Connor lake sample, organic layer, OM1C0 treatment, replicate 1'	1
'O'' Connor lake sample, organic layer, OM1C0 treatment, replicate 2'	1
'O'' Connor lake sample, organic layer, OM1C0 treatment, replicate 3'	1
'O'' Connor lake sample, organic layer, OM2C0 treatment, replicate 1'	1
'O'' Connor lake sample, organic layer, OM2C0 treatment, replicate 2'	1
'O'' Connor lake sample, organic layer, OM2C0 treatment, replicate 3'	1
'Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at Clubhead Creek underlying Spartina patens'''	1
04-572	1
04-573	1
04-574	1
04-575	1
04-576	1
04-577	1
04-578	1
04-579	1
04-580	1
04-581	1
04-582	1
04-583	1
04-609	1
04-611	1
04-612	1
04-613	1
04-614	1
04-615	1
04-616	1
04-617	1
04-618	1
04-619	1
04-620	1
04-621	1
04-622	1
06-071	1
06-080	1
06-095	1
06-102	1
06-104	1
06-126	1
06-127	1
06-129	1
06-131	1
06-132	1
06-136	1
06-140	1
06-141	1
06-142	1
06-156	1
06-159	1
06-161	1
06-167	1
06-174	1
06-196	1
06-198	1
06-199	1
06-217	1
06-220	1
06-254	1
06-259	1
06-261	1
06-264	1
06-265	1
06-268	1
06-270	1
06-274	1
06-275	1
06-293	1
06-294	1
06-295	1
06-304	1
06-305	1
06-306	1
06-307	1
06-308	1
06-309	1
06-311	1
06-312	1
06-313	1
06-315	1
07-001	1
07-002	1
07-003	1
07-006	1
07-007	1
07-008	1
07-009	1
07-010	1
07-011	1
07-014	1
07-015	1
07-021	1
07-022	1
07-025	1
07-026	1
07-028	1
07-029	1
07-030	1
07-031	1
07-032	1
07-033	1
07-040	1
07-047	1
07-049	1
07-051	1
07-055	1
07-057	1
07-223	1
07-227	1
07-230	1
07-234	1
07-239	1
07-240	1
07-241	1
07-243	1
07-248	1
07-249	1
07-250	1
07-251	1
07-252	1
08-097	1
08-120	1
08-134	1
08-135	1
08-138	1
08-144	1
08-147	1
08-148	1
08-152	1
08-155	1
08-157	1
08-160	1
08-164	1
08-166	1
08-168	1
08-170	1
08-177	1
08-179	1
08-180	1
08-181	1
08-183	1
08-184	1
08-186	1
08-188	1
08-189	1
08-193	1
08-194	1
08-197	1
08-202	1
08-206	1
08-209	1
08-210	1
08-212	1
08-216	1
08-219	1
09-287	1
09-288	1
09-292	1
09-297	1
09-298	1
09-300	1
09-302	1
09-370	1
09-372	1
09-374	1
09-375	1
09-376	1
09-378	1
09-379	1
09-380	1
09-383	1
09-384	1
09-391	1
09-393	1
09-394	1
09-395	1
09-397	1
09-403	1
09-408	1
09-410	1
09-413	1
09-418	1
09-419	1
09-420	1
09-423	1
09-427	1
09-429	1
09-430	1
09-432	1
09-447	1
09-450	1
09-454	1
09-602	1
09-603	1
09-604	1
09-607	1
09-608	1
10-277	1
10-278	1
10-280	1
10-281	1
10-283	1
10-301	1
10-347	1
10-348	1
10-349	1
10-350	1
10-351	1
10-353	1
10-354	1
10-355	1
10-356	1
10-357	1
10-359	1
10-361	1
10-362	1
10-364	1
10-386	1
10-399	1
10-400	1
10-402	1
10-404	1
10-412	1
10-414	1
10-416	1
10-417	1
10-422	1
10-434	1
10-435	1
10-436	1
10-437	1
10-439	1
10-441	1
10-442	1
10-444	1
10-445	1
10-446	1
10-597	1
10141.D.CTRL.soil.T0.1	1
10141.D.CTRL.soil.T4.1	1
10141.D.skin.body.T4.1	1
10141.D.soil.T4.1	1
10141.D.soil.T5.1	1
10141.F.CTRL.soil.T0.1	1
10141.F.CTRL.soil.T4.1	1
10141.F.skin.body.T4.1	1
10141.F.soil.T4.1	1
10141.F.soil.T5.1	1
10141.G.CTRL.soil.T0.1	1
10141.G.CTRL.soil.T4.1	1
10141.G.skin.body.T4.1	1
10141.G.soil.T4.1	1
10141.G.soil.T5.5	1
10143.004.4.25.2013.Soil.Head.SiteA	1
10143.016.4.25.2013.Soil.ctrl.ctrlB	1
11-471	1
11-476	1
11-477	1
11-479	1
11-481	1
11-482	1
11-483	1
11-484	1
11-485	1
11-488	1
11-492	1
11-493	1
11-495	1
11-497	1
11-499	1
11-501	1
11-503	1
11-508	1
11-513	1
11-538	1
11-539	1
11-540	1
11-541	1
11-542	1
11-544	1
11-545	1
11-547	1
11-556	1
11-595	1
11-631	1
12-460	1
12-461	1
12-462	1
12-463	1
12-465	1
12-466	1
12-467	1
12-473	1
12-474	1
12-475	1
12-504	1
12-533	1
12-534	1
12-535	1
12-549	1
12-642	1
12-643	1
12-646	1
12-647	1
12-648	1
12-649	1
12-650	1
12-657	1
12-663	1
12-666	1
12-670	1
12-671	1
12-673	1
12-674	1
12-676	1
13-514	1
13-515	1
13-516	1
13-517	1
13-518	1
13-519	1
13-520	1
13-521	1
13-522	1
13-524	1
13-525	1
13-526	1
13-527	1
13-560	1
13-562	1
13-564	1
13-565	1
13-567	1
13-569	1
13-587	1
13-588	1
14-570	1
14-571	1
14-584	1
14-585	1
140 years, bottom	1
140 years, middle	1
140 years, top	1
17-018	1
17-027	1
17-043	1
17-050	1
17-054	1
17-056	1
17-058	1
17-060	1
17-061	1
17-063	1
17-065	1
17-067	1
17-072	1
17-073	1
17-074	1
17-077	1
17-086	1
17-090	1
17-091	1
17-093	1
17-098	1
17-107	1
17-112	1
17-113	1
17-116	1
18-318	1
18-320	1
18-321	1
18-322	1
18-323	1
18-324	1
18-327	1
18-328	1
18-329	1
18-330	1
18-331	1
18-332	1
18-333	1
18-334	1
18-335	1
18-336	1
18-337	1
18-338	1
18-339	1
18-340	1
18-341	1
18-468	1
18-505	1
18-506	1
18-550	1
18-551	1
18-555	1
2-BIOTECH-ROV7-P1	1
20 years, bottom	1
20 years, middle	1
20 years, top	1
220 years, bottom	1
220 years, middle	1
220 years, top	1
30 years, bottom	1
30 years, middle	1
30 years, top	1
350 years, bottom	1
350 years, middle	1
350 years, top	1
400 years, bottom	1
400 years, middle	1
400 years, top	1
440 years, bottom	1
440 years, middle	1
440 years, top	1
50 years, bottom	1
50 years, middle	1
50 years, top	1
A sample from a microbial mat fromthe Kallisti Limnes subsea pools	1
Addis Ababa, Ethiopia	1
Almaty, Kazakhstan	1
Ancient permafrost from central Yakutia - BGG_LOSDA	1
Ancient permafrost from central Yakutia - BGG_MOSDA	1
Ancient permafrost from central Yakutia - BGG_NOSDA	1
Ancient permafrost from central Yakutia - BGG_OOSDC	1
Ancient permafrost from central Yakutia - BGG_POSDC	1
Ancient permafrost from central Yakutia - BGG_QOSDA	1
Ancient permafrost from central Yakutia - BGG_ROSDA	1
Ancient permafrost from central Yakutia- BGG_KOSDC	1
Ancient siberian permafrost - BGG_BOSW	1
Ankara, Turkey	1
Atlanta, GA, USA	1
Azolla leaf juice biological replicate 1	1
Azolla leaf juice biological replicate 2	1
Azolla leaf juice biological replicate 3	1
Azolla plant biological replicate 1	1
Azolla plant biological replicate 2	1
Azolla plant biological replicate 3	1
Baltic Sea Basin sediment collected from the Bornholm Basin during IODP x347 at site 65C.	1
Baltic Sea Basin sediment metagenome from IODP x347 from site 65C.	1
Baltic Sea Basin sediment metagenome from the Bornholm Basin corresponding to IODP x347 site 65.	1
Baltic Sea Basin sediment metagenomes collected by IODP x347 from sediment core 59E - 5H2	1
Banjul, The Gambia	1
Barcelona, Spain	1
Baseline_10_2018-09-14	1
Baseline_11_2018-09-15	1
Baseline_12_2018-09-16	1
Baseline_13_2018-09-17	1
Baseline_14_2018-09-18	1
Baseline_15_2018-09-19	1
Baseline_16_2018-09-20	1
Baseline_17_2018-09-21	1
Baseline_18_2018-09-22	1
Baseline_19_2018-09-23	1
Baseline_1_2018-09-05	1
Baseline_20_2018-09-24	1
Baseline_21_2018-09-25	1
Baseline_22_2018-09-26	1
Baseline_23_2018-09-27	1
Baseline_24_2018-09-28	1
Baseline_25_2018-09-29	1
Baseline_26_2018-09-30	1
Baseline_27_2018-10-01	1
Baseline_28_2018-10-02	1
Baseline_29_2018-10-03	1
Baseline_2_2018-09-06	1
Baseline_30_2018-10-04	1
Baseline_31_2018-10-05	1
Baseline_32_2018-10-06	1
Baseline_33_2018-10-07	1
Baseline_3_2018-09-07	1
Baseline_4_2018-09-08	1
Baseline_5_2018-09-09	1
Baseline_6_2018-09-10	1
Baseline_7_2018-09-11	1
Baseline_8_2018-09-12	1
Baseline_9_2018-09-13	1
Bedong, Malaysia	1
Belgrade, Serbia	1
Belvaux, Luxembourg	1
Berlin, Germany	1
Bilthoven, The Netherlands	1
Blodgett sample, mineral layer, OM0C0 treatment, replicate 1	1
Blodgett sample, mineral layer, OM0C0 treatment, replicate 2	1
Blodgett sample, mineral layer, OM0C0 treatment, replicate 3, first time sequenced	1
Blodgett sample, mineral layer, OM0C0 treatment, replicate 3, second time sequenced	1
Blodgett sample, mineral layer, OM1C0 treatment, replicate 1	1
Blodgett sample, mineral layer, OM1C0 treatment, replicate 2	1
Blodgett sample, mineral layer, OM1C0 treatment, replicate 3	1
Blodgett sample, mineral layer, OM2C0 treatment, replicate 1	1
Blodgett sample, mineral layer, OM2C0 treatment, replicate 2, first time sequenced	1
Blodgett sample, mineral layer, OM2C0 treatment, replicate 2, second time sequenced	1
Blodgett sample, mineral layer, OM2C0 treatment, replicate 3	1
Blodgett sample, mineral layer, OM3C0 treatment, replicate 1	1
Blodgett sample, mineral layer, OM3C0 treatment, replicate 2	1
Blodgett sample, mineral layer, OM3C0 treatment, replicate 3	1
Blodgett sample, organic layer, OM0C0 treatment, replicate 1	1
Blodgett sample, organic layer, OM0C0 treatment, replicate 2	1
Blodgett sample, organic layer, OM0C0 treatment, replicate 3	1
Blodgett sample, organic layer, OM1C0 treatment, replicate 1	1
Blodgett sample, organic layer, OM1C0 treatment, replicate 2	1
Blodgett sample, organic layer, OM1C0 treatment, replicate 3	1
Blodgett sample, organic layer, OM2C0 treatment, replicate 1	1
Blodgett sample, organic layer, OM2C0 treatment, replicate 2	1
Blodgett sample, organic layer, OM2C0 treatment, replicate 3	1
Bothnian Sea sediment, site NB8, incubated subsample BS1	1
Bothnian Sea sediment, site NB8, incubated subsample BS3	1
Bothnian Sea sediment, site NB8, incubated subsample BS4	1
Bothnian Sea sediment, site US5B, incubated subsample BS2	1
Bothnian Sea, sediment core sample, site NB8	1
Boulder, CO, USA	1
Bratislava, Slovakia	1
Brno, Czech Republic	1
Budapest, Hungary	1
Bulk soil microbial communities from the field in Mead, Nebraska, USA - 072115-187_1 MetaG	1
C replicate 1	1
C replicate 2	1
C replicate 3	1
C+R replicate 1	1
C+R replicate 2	1
C+R replicate 3	1
CCE Cruise Cycle 1, Deep Chlorophyll Maximum	1
CCE Cruise Cycle 1, Mixed Layer	1
CCE Cruise Cycle 1, deep sample	1
CCE Cruise Cycle 2, Deep Chlorophyll Maximum	1
CCE Cruise Cycle 3, Deep Chlorophyll Maximum	1
CCE Cruise Cycle 3, Surface, pre-filtered through 60 um mesh	1
CCE Cruise Cycle 4, Deep Chlorophyll Maximum	1
CCE Cruise Cycle 4, Surface	1
CCE Cruise cycle 2, Surface	1
CE_Jul18 metagenome	1
CE_Oct18 metagenome	1
CH_Jul18 metagenome	1
CH_Oct18 metagenome	1
CONSERVE_10_MD06_MayA	1
CONSERVE_11_MD10_MayA_BRDU	1
CONSERVE_12_MD06_MayA_BRDU	1
CONSERVE_13_MD10_JuneA_BRDU	1
CONSERVE_14_MD10_JuneA	1
CONSERVE_15_MD06_JuneA_BRDU	1
CONSERVE_16_MD06_JuneA	1
CONSERVE_17_MD10_JuneB_BRDU	1
CONSERVE_18_MD10_JuneB	1
CONSERVE_19_MD06_JuneB	1
CONSERVE_1_MD10_MarchA	1
CONSERVE_20_MD06_JuneB_BRDU	1
CONSERVE_21_MD10_JulyA	1
CONSERVE_22C_MD10_JulyA_BRDU	1
CONSERVE_23_MD06_JulyA	1
CONSERVE_24C_MD06_JulyA_BRDU	1
CONSERVE_25_MD06_AugustA	1
CONSERVE_26_MD10_AugustA	1
CONSERVE_27C_MD06_AugustA_BRDU	1
CONSERVE_29C_MD10_AugustB_BRDU	1
CONSERVE_2_MD06_MarchA	1
CONSERVE_30_MD10_AugustB	1
CONSERVE_31_MD06_AugustB	1
CONSERVE_32C_MD06_AugustB_BRDU	1
CONSERVE_33C_MD10_SeptA_BRDU	1
CONSERVE_34_MD10_SeptA	1
CONSERVE_35_MD06_SeptA	1
CONSERVE_36C_MD06_SeptA_BRDU	1
CONSERVE_37C_MD10_SeptB_BRDU	1
CONSERVE_38_MD10_SeptB	1
CONSERVE_39_MD06_SeptB	1
CONSERVE_3_MD10_MarchA_BRDU	1
CONSERVE_40C_MD06_SeptB_BRDU	1
CONSERVE_41_MD10_OctA	1
CONSERVE_42C_MD10_OctA_BRDU	1
CONSERVE_43_MD06_OctA	1
CONSERVE_44C_MD06_OctA_BRDU	1
CONSERVE_45C_MD10_OctB_BRDU	1
CONSERVE_46C_MD06_OctB_BRDU	1
CONSERVE_47_MD06_OctB	1
CONSERVE_48_MD10_OctB	1
CONSERVE_49C_MD10_NovA_BRDU	1
CONSERVE_4_MD06_MarchA_BRDU	1
CONSERVE_50_MD10_NovA	1
CONSERVE_51C_MD06_NovA_BRDU	1
CONSERVE_52_MD06_NovA	1
CONSERVE_53_MD10_DecA	1
CONSERVE_54C_MD10_DecA_BRDU	1
CONSERVE_55C_MD10_JanA_BRDU	1
CONSERVE_56_MD10_JanA	1
CONSERVE_5_MD10_AprilA_BRDU	1
CONSERVE_6_MD06_AprilA_BRDU	1
CONSERVE_7_MD10_AprilA	1
CONSERVE_8_MD06_AprilA	1
CONSERVE_9_MD10_MayA	1
Calgary, Canada	1
Chicago, IL, USA	1
Chisinau, Moldova	1
Cochin, India	1
Colombo, Sri Lanka	1
Colorado Formation Water	1
Coral Mucus from Pocillopora damicornis sampled from site Bills Bay,Ningaloo,Australia as sample E7.10.Poc.dami.1.20150621.M of the Global Coral Microbiome Project.	1
Coral Mucus from Pocillopora damicornis sampled from site Bills Bay,Ningaloo,Australia as sample E7.10.Poc.dami.2.20150621.M of the Global Coral Microbiome Project.	1
Coral Mucus from Porites lobata sampled from site Bills Bommie,Ningaloo,Australia as sample E7.3.Por.loba.1.20150619.M of the Global Coral Microbiome Project.	1
Coral Mucus from Porites lobata sampled from site Bills Bommie,Ningaloo,Australia as sample E7.3.Por.loba.2.20150619.M of the Global Coral Microbiome Project.	1
Coral Skeleton from Pocillopora damicornis sampled from site Bills Bay,Ningaloo,Australia as sample E7.10.Poc.dami.1.20150621.S of the Global Coral Microbiome Project.	1
Coral Skeleton from Pocillopora damicornis sampled from site Bills Bay,Ningaloo,Australia as sample E7.10.Poc.dami.2.20150621.S of the Global Coral Microbiome Project.	1
Coral Skeleton from Porites lobata sampled from site Bills Bommie,Ningaloo,Australia as sample E7.3.Por.loba.1.20150619.S of the Global Coral Microbiome Project.	1
Coral Skeleton from Porites lobata sampled from site Bills Bommie,Ningaloo,Australia as sample E7.3.Por.loba.2.20150619.S of the Global Coral Microbiome Project.	1
Coral Tissue from Pocillopora damicornis sampled from site Bills Bay,Ningaloo,Australia as sample E7.10.Poc.dami.1.20150621.T of the Global Coral Microbiome Project.	1
Coral Tissue from Pocillopora damicornis sampled from site Bills Bay,Ningaloo,Australia as sample E7.10.Poc.dami.2.20150621.T of the Global Coral Microbiome Project.	1
Coral Tissue from Pocillopora damicornis sampled from site Bills Bay,Ningaloo,Australia as sample E7.10.Poc.dami.3.20150621.T of the Global Coral Microbiome Project.	1
Coral Tissue from Pocillopora damicornis sampled from site Isla Saboga,Las Perlas,Panama as sample E11.10.Poc.dami.1.20150502.T of the Global Coral Microbiome Project.	1
Coral Tissue from Pocillopora damicornis sampled from site Isla Saboga,Las Perlas,Panama as sample E11.10.Poc.dami.2.20150502.T of the Global Coral Microbiome Project.	1
Coral Tissue from Pocillopora damicornis sampled from site Isla Saboga,Las Perlas,Panama as sample E11.10.Poc.dami.3.20150502.T of the Global Coral Microbiome Project.	1
Coral Tissue from Porites lobata sampled from site Bills Bommie,Ningaloo,Australia as sample E7.3.Por.loba.1.20150619.T of the Global Coral Microbiome Project.	1
Coral Tissue from Porites lobata sampled from site Bills Bommie,Ningaloo,Australia as sample E7.3.Por.loba.2.20150619.T of the Global Coral Microbiome Project.	1
Coral Tissue from Porites lobata sampled from site Bills Bommie,Ningaloo,Australia as sample E7.3.Por.loba.3.20150619.T of the Global Coral Microbiome Project.	1
Coral Tissue from Porites lobata sampled from site Isla Saboga,Las Perlas,Panama as sample E11.3.Por.loba.1.20150502.T of the Global Coral Microbiome Project.	1
Coral Tissue from Porites lobata sampled from site Isla Saboga,Las Perlas,Panama as sample E11.3.Por.loba.2.20150502.T of the Global Coral Microbiome Project.	1
Coral Tissue from Porites lobata sampled from site Isla Saboga,Las Perlas,Panama as sample E11.3.Por.loba.3.20150502.T of the Global Coral Microbiome Project.	1
D. marginatus from Nielsen Park: 11 tubes: NP_DI_4 is a cotton swab of surface, NP_DI_4_A-J are 10 replicate tissue samples	1
D. marginatus from Nielsen Park: 11 tubes: NP_DI_5 is a cotton swab of surface, NP_DI_5_A-J are 10 replicate tissue samples	1
D1_AM_ER	1
D1_AM_ISLAND	1
D1_AM_KT	1
D1_AM_MOS	1
D1_AM_TC	1
D1_AM_TKO	1
D1_AM_TW	1
D1_AM_WR	1
D1_PM_ER	1
D1_PM_ISLAND	1
D1_PM_KT	1
D1_PM_MOS	1
D1_PM_TC	1
D1_PM_TKO	1
D1_PM_TW	1
D1_PM_WR	1
D2_AM_ER	1
D2_AM_ISLAND	1
D2_AM_KT	1
D2_AM_MOS	1
D2_AM_TC	1
D2_AM_TKO	1
D2_AM_TW	1
D2_AM_WR	1
D2_PM_ER	1
D2_PM_ISLAND	1
D2_PM_KT	1
D2_PM_MOS	1
D2_PM_TC	1
D2_PM_TKO	1
D2_PM_TW	1
D2_PM_WR	1
D3_AM_ER	1
D3_AM_ISLAND	1
D3_AM_KT	1
D3_AM_MOS	1
D3_AM_TC	1
D3_AM_TKO	1
D3_AM_TW	1
D3_AM_WR	1
D3_PM_ER	1
D3_PM_ISLAND	1
D3_PM_KT	1
D3_PM_MOS	1
D3_PM_TC	1
D3_PM_TKO	1
D3_PM_TW	1
D3_PM_WR	1
DTU_2020_1007150_1_MG_RA_CPH_Sewage_494	1
DTU_2020_1007153_1_MG_RA_CPH_Sewage_504	1
DTU_2020_1007154_1_MG_RD_CPH_Sewage_505	1
DTU_2020_1007157_1_MG_RD_CPH_Sewage_517	1
DTU_2020_1007158_1_MG_RL_CPH_Sewage_518	1
DTU_2020_1007160_1_MG_RD_CPH_Sewage_529	1
DTU_2020_1007162_1_MG_RA_CPH_Sewage_536	1
DTU_2020_1007165_1_MG_RA_CPH_Sewage_547	1
DTU_2020_1007166_1_MG_RD_CPH_Sewage_548	1
DTU_2020_1007167_1_MG_RA_CPH_Sewage_560	1
DTU_2020_1007170_1_MG_RL_CPH_Sewage_571	1
DTU_2020_1007173_1_MG_RL_CPH_Sewage_592	1
DTU_2020_1007174_1_MG_RA_CPH_Sewage_593	1
DTU_2020_1007175_1_MG_RD_CPH_Sewage_594	1
DTU_2020_1007176_1_MG_RL_CPH_Sewage_597	1
DTU_2020_1007177_1_MG_RD_CPH_Sewage_598	1
DTU_2020_1007178_1_MG_RA_CPH_Sewage_600	1
DTU_2020_1007179_1_MG_RD_CPH_Sewage_601	1
DTU_2020_1007180_1_MG_RL_CPH_Sewage_602	1
DTU_2020_1007181_1_MG_RA_CPH_Sewage_603	1
DTU_2020_1007182_1_MG_RD_CPH_Sewage_604	1
DTU_2020_1007183_1_MG_RL_CPH_Sewage_605	1
DTU_2020_1007184_1_MG_RA_CPH_Sewage_606	1
DTU_2020_1007185_1_MG_RD_CPH_Sewage_607	1
DTU_2020_1007186_1_MG_RL_CPH_Sewage_608	1
DTU_2020_1007187_1_MG_RA_CPH_Sewage_609	1
DTU_2020_1007188_1_MG_RD_CPH_Sewage_610	1
DTU_2020_1007189_1_MG_RL_CPH_Sewage_614	1
DTU_2020_1007190_1_MG_RA_CPH_Sewage_615	1
DTU_2020_1007191_1_MG_RD_CPH_Sewage_616	1
DTU_2020_1007192_1_MG_RL_CPH_Sewage_617	1
DTU_2020_1007193_1_MG_RA_CPH_Sewage_618	1
DTU_2020_1007194_1_MG_RD_CPH_Sewage_619	1
DTU_2020_1007195_1_MG_RL_CPH_Sewage_620	1
DTU_2020_1007196_1_MG_RA_CPH_Sewage_621	1
DTU_2020_1007197_1_MG_RD_CPH_Sewage_622	1
DTU_2020_1007198_1_MG_RL_CPH_Sewage_623	1
DTU_2020_1007199_1_MG_RA_CPH_Sewage_624	1
DTU_2020_1007200_1_MG_RL_CPH_Sewage_625	1
DTU_2020_1007201_1_MG_RA_CPH_Sewage_626	1
DTU_2020_1007202_1_MG_RD_CPH_Sewage_627	1
DTU_2020_1007203_1_MG_RL_CPH_Sewage_628	1
DTU_2020_1007204_1_MG_RA_CPH_Sewage_629	1
DTU_2020_1007205_1_MG_RD_CPH_Sewage_630	1
DTU_2020_1007206_1_MG_RL_CPH_Sewage_631	1
DTU_2020_1007207_1_MG_RA_CPH_Sewage_632	1
DTU_2020_1007208_1_MG_RD_CPH_Sewage_633	1
DTU_2020_1007209_1_MG_RL_CPH_Sewage_634	1
DTU_2020_1007210_1_MG_RA_CPH_Sewage_635	1
DTU_2020_1007211_1_MG_RD_CPH_Sewage_636	1
DTU_2020_1007212_1_MG_RD_CPH_Sewage_637	1
DTU_2020_1007213_1_MG_RA_CPH_Sewage_638	1
DTU_2020_1007214_1_MG_RD_CPH_Sewage_639	1
DTU_2020_1007215_1_MG_RL_CPH_Sewage_640	1
DTU_2020_1007216_1_MG_RL_CPH_Sewage_642	1
DTU_2020_1007217_1_MG_RD_CPH_Sewage_643	1
DTU_2020_1007218_1_MG_RA_CPH_Sewage_645	1
DTU_2020_1007219_1_MG_RL_CPH_Sewage_646	1
DTU_2020_1007220_1_MG_RD_CPH_Sewage_647	1
DTU_2020_1007221_1_MG_RA_CPH_Sewage_648	1
DTU_2020_1007222_1_MG_RL_CPH_Sewage_649	1
DTU_2020_1007223_1_MG_RD_CPH_Sewage_650	1
DTU_2020_1007224_1_MG_RL_CPH_Sewage_651	1
DTU_2020_1007225_1_MG_RD_CPH_Sewage_652	1
DTU_2020_1007226_1_MG_RL_CPH_Sewage_653	1
DTU_2020_1007227_1_MG_RL_CPH_Sewage_654	1
DTU_2020_1007228_1_MG_RA_CPH_Sewage_655	1
DTU_2020_1007229_1_MG_RD_CPH_Sewage_656	1
DTU_2020_1007230_1_MG_RL_CPH_Sewage_662	1
DTU_2020_1007231_1_MG_RA_CPH_Sewage_663	1
DTU_2020_1007232_1_MG_RD_CPH_Sewage_664	1
DTU_2020_1007233_1_MG_RL_CPH_Sewage_671	1
DTU_2020_1007234_1_MG_RA_CPH_Sewage_672	1
DTU_2020_1007235_1_MG_RD_CPH_Sewage_673	1
DTU_2020_1007236_1_MG_RL_CPH_Sewage_683	1
DTU_2020_1007237_1_MG_RA_CPH_Sewage_684	1
DTU_2020_1007238_1_MG_RD_CPH_Sewage_685	1
DTU_2020_1007239_1_MG_RL_CPH_Sewage_689	1
DTU_2020_1007240_1_MG_RA_CPH_Sewage_690	1
DTU_2020_1007241_1_MG_RD_CPH_Sewage_691	1
DTU_2020_1007242_1_MG_RL_CPH_Sewage_695	1
DTU_2020_1007243_1_MG_RA_CPH_Sewage_696	1
DTU_2020_1007244_1_MG_RD_CPH_Sewage_697	1
DTU_2020_1007245_1_MG_RL_CPH_Sewage_701	1
DTU_2020_1007246_1_MG_RD_CPH_Sewage_703	1
DTU_2020_1007247_1_MG_RL_CPH_Sewage_707	1
DTU_2020_1007248_1_MG_RD_CPH_Sewage_709	1
DTU_2020_1007249_1_MG_RL_CPH_Sewage_710	1
DTU_2020_1007250_1_MG_RA_CPH_Sewage_711	1
DTU_2020_1007251_1_MG_RD_CPH_Sewage_712	1
DTU_2020_1007252_1_MG_RL_CPH_Sewage_713	1
DTU_2020_1007253_1_MG_RA_CPH_Sewage_714	1
DTU_2020_1007254_1_MG_RD_CPH_Sewage_715	1
DTU_2020_1007255_1_MG_RL_CPH_Sewage_716	1
DTU_2020_1007256_1_MG_RA_CPH_Sewage_717	1
DTU_2020_1007257_1_MG_RD_CPH_Sewage_718	1
DTU_2020_1007258_1_MG_RL_CPH_Sewage_719	1
DTU_2020_1007259_1_MG_RA_CPH_Sewage_720	1
DTU_2020_1007260_1_MG_RD_CPH_Sewage_721	1
DTU_2020_1007261_1_MG_RL_CPH_Sewage_722	1
DTU_2020_1007262_1_MG_RA_CPH_Sewage_723	1
DTU_2020_1007263_1_MG_RD_CPH_Sewage_724	1
DTU_2020_1007264_1_MG_RL_CPH_Sewage_725	1
DTU_2020_1007265_1_MG_RA_CPH_Sewage_726	1
DTU_2020_1007266_1_MG_RD_CPH_Sewage_727	1
DTU_2020_1007267_1_MG_RL_CPH_Sewage_731	1
DTU_2020_1007268_1_MG_RA_CPH_Sewage_732	1
DTU_2020_1007269_1_MG_RD_CPH_Sewage_733	1
DTU_2020_1007270_1_MG_RL_CPH_Sewage_734	1
DTU_2020_1007271_1_MG_RA_CPH_Sewage_735	1
DTU_2020_1007272_1_MG_RL_CPH_Sewage_740	1
DTU_2020_1007273_1_MG_RA_CPH_Sewage_741	1
DTU_2020_1007274_1_MG_RD_CPH_Sewage_742	1
DTU_2020_1007275_1_MG_RL_CPH_Sewage_1_586	1
DTU_2020_1007276_1_MG_RL_CPH_Sewage_2_586	1
DTU_2020_1007277_1_MG_RA_CPH_Sewage_1_587	1
DTU_2020_1007278_1_MG_RA_CPH_Sewage_2_587	1
DTU_2020_1007279_1_MG_RD_CPH_Sewage_1_588	1
DTU_2020_1007280_1_MG_RD_CPH_Sewage_2_588	1
DTU_2020_1007281_1_MG_RL_CPH_Sewage_1_677	1
DTU_2020_1007282_1_MG_RL_CPH_Sewage_2_677	1
DTU_2020_1007283_1_MG_RA_CPH_Sewage_1_678	1
DTU_2020_1007284_1_MG_RA_CPH_Sewage_2_678	1
DTU_2020_1007285_1_MG_RD_CPH_Sewage_1_679	1
DTU_2020_1007286_1_MG_RD_CPH_Sewage_2_679	1
DTU_2021_1009700_1_MG_EKU_TSA_122020	1
DTU_2021_1009701_1_MG_EKU_RYN_122020	1
DTU_2021_1009702_1_MG_TSH_RIET_122020	1
DTU_2021_1009703_1_MG_TSH_ZEEK_122020	1
DTU_2021_1009704_1_MG_EKU_TSA_012021	1
DTU_2021_1009705_1_MG_EKU_RYN_012021	1
DTU_2021_1009706_1_MG_TSH_RIET_012021	1
DTU_2021_1009707_1_MG_TSH_ZEEK_012021	1
DTU_2021_1009708_1_MG_EKU_TSA_022021	1
DTU_2021_1009709_1_MG_EKU_RYN_022021	1
DTU_2021_1009710_1_MG_TSH_RIET_022021	1
DTU_2021_1009711_1_MG_TSH_ZEEK_022021	1
DTU_2021_1012386_1_MG_EKU_TSA_032021	1
DTU_2021_1012387_1_MG_EKU_RYN_032021	1
DTU_2021_1012388_1_MG_TSH_RIET_032021	1
DTU_2021_1012389_1_MG_TSH_ZEEK_032021	1
DTU_2021_1012390_1_MG_EKU_TSA_042021	1
DTU_2021_1012391_1_MG_EKU_RYN_042021	1
DTU_2021_1012392_1_MG_TSH_RIET_042021	1
DTU_2021_1012393_1_MG_TSH_ZEEK_042021	1
DTU_2021_1012394_1_MG_EKU_TSA_052021	1
DTU_2021_1012395_1_MG_EKU_RYN_052021	1
DTU_2021_1012396_1_MG_TSH_RIET_052021	1
DTU_2021_1012397_1_MG_TSH_ZEEK_052021	1
DTU_2021_1016483_1_MG_EKU_TSA_092021	1
DTU_2021_1016484_1_MG_EKU_RYN_092021	1
DTU_2021_1016485_1_MG_TSH_RIET_092021	1
DTU_2021_1016486_1_MG_TSH_ZEEK_092021	1
DTU_2021_1016487_1_MG_EKU_TSA_102021	1
DTU_2021_1016488_1_MG_EKU_RYN_102021	1
DTU_2021_1016489_1_MG_TSH_RIET_102021	1
DTU_2021_1016490_1_MG_TSH_ZEEK_102021	1
DTU_2021_1016491_1_MG_EKU_TSA_112021	1
DTU_2021_1016497_1_MG_TSH_RIET_062021	1
DTU_2021_1016498_1_MG_TSH_ZEEK_062021	1
DTU_2021_1016499_1_MG_EKU_TSA_072021	1
DTU_2021_1016500_1_MG_EKU_RYN_072021	1
DTU_2021_1016504_1_MG_EKU_RYN_082021	1
DTU_2021_1016505_1_MG_TSH_RIET_082021	1
DTU_2021_1016506_1_MG_TSH_ZEEK_082021	1
DTU_2022_1014082_1_MG_HU_BU_3_200518_GSL_42	1
DTU_2022_1014083_1_MG_HU_BU_3_200525_GSL_67	1
DTU_2022_1014086_1_MG_HU_BU_3_200629_GSL_160	1
DTU_2022_1014087_1_MG_HU_BU_3_200601_GSL_166	1
DTU_2022_1014089_1_MG_HU_BU_3_200706_GSL_168	1
DTU_2022_1014091_1_MG_HU_BU_3_200721_GSL_198	1
DTU_2022_1014093_1_MG_HU_BU_3_200803_GSL_242	1
DTU_2022_1014095_1_MG_HU_BU_3_200817_GSL_262	1
DTU_2022_1014098_1_MG_HU_BU_3_200907_GSL_274	1
DTU_2022_1014099_1_MG_HU_BU_3_200915_GSL_326	1
DTU_2022_1014103_1_MG_HU_BU_3_201005_GSL_338	1
DTU_2022_1014106_1_MG_HU_BU_3_201027_GSL_346	1
DTU_2022_1014107_1_MG_HU_BU_3_201103_GSL_404	1
DTU_2022_1014111_1_MG_HU_BU_3_201123_GSL_599	1
DTU_2022_1014114_1_MG_HU_BU_3_201207_GSL_604	1
DTU_2022_1014117_1_MG_HU_BU_3_201228_GSL_715	1
DTU_2022_1014120_1_MG_HU_BU_3_210118_GSL_749	1
DTU_2022_1014121_1_MG_HU_BU_3_210125_GSL_750	1
DTU_2022_1014124_1_MG_HU_BU_3_210215_GSL_772	1
DTU_2022_1014125_1_MG_HU_BU_3_210222_GSL_776	1
DTU_2022_1014129_1_MG_HU_BU_3_210315_GSL_803	1
DTU_2022_1014131_1_MG_HU_BU_3_210329_GSL_818	1
DTU_2022_1014134_1_MG_HU_BU_3_210426_GSL_907	1
DTU_2022_1014135_1_MG_HU_BU_3_210504_GSL_911	1
DTU_2022_1014137_1_MG_HU_BU_3_210404_GSL_944	1
DTU_2022_1014138_1_MG_HU_BU_3_210517_GSL_948	1
DTU_2022_1014139_1_MG_NL_RO_200408_GSL_1065	1
DTU_2022_1014141_1_MG_NL_RO_200423_GSL_1067	1
DTU_2022_1014143_1_MG_NL_RO_200504_GSL_1069	1
DTU_2022_1014145_1_MG_NL_RO_200521_GSL_1071	1
DTU_2022_1014146_1_MG_NL_RO_200603_GSL_1072	1
DTU_2022_1014149_1_MG_NL_RO_200624_GSL_1075	1
DTU_2022_1014151_1_MG_NL_RO_200706_GSL_1077	1
DTU_2022_1014154_1_MG_NL_RO_200724_GSL_1080	1
DTU_2022_1014156_1_MG_NL_RO_200805_GSL_1082	1
DTU_2022_1014158_1_MG_NL_RO_200823_GSL_1084	1
DTU_2022_1014159_1_MG_NL_RO_200902_GSL_1085	1
DTU_2022_1014162_1_MG_NL_RO_200923_GSL_1088	1
DTU_2022_1014164_1_MG_NL_RO_201007_GSL_1090	1
DTU_2022_1014166_1_MG_NL_RO_201023_GSL_1092	1
DTU_2022_1014168_1_MG_NL_RO_201104_GSL_1094	1
DTU_2022_1014171_1_MG_NL_RO_201125_GSL_1097	1
DTU_2022_1014172_1_MG_NL_RO_201202_GSL_1098	1
DTU_2022_1014175_1_MG_NL_RO_201223_GSL_1101	1
DTU_2022_1014176_1_MG_NL_RO_210106_GSL_1102	1
DTU_2022_1014178_1_MG_NL_RO_210120_GSL_1104	1
DTU_2022_1014180_1_MG_NL_RO_210203_GSL_1106	1
DTU_2022_1014183_1_MG_NL_RO_210225_GSL_1109	1
DTU_2022_1014184_1_MG_NL_RO_210303_GSL_1110	1
DTU_2022_1014187_1_MG_NL_RO_210324_GSL_1113	1
DTU_2022_1014188_1_MG_NL_RO_210407_GSL_1114	1
DTU_2022_1014190_1_MG_NL_RO_210422_GSL_1116	1
DTU_2022_1014192_1_MG_NL_RO_210505_GSL_1118	1
DTU_2022_1014194_1_MG_NL_RO_210526_GSL_1120	1
DTU_2022_1014196_1_MG_NL_RO_210609_GSL_1122	1
DTU_2022_1014198_1_MG_NL_RO_210623_GSL_1124	1
DTU_2022_1014200_1_MG_NL_RO_210708_GSL_1126	1
DTU_2022_1014203_1_MG_NL_RO_210728_GSL_1129	1
DTU_2022_1014205_1_MG_NL_RO_210811_GSL_1131	1
DTU_2022_1014208_1_MG_NL_RO_210830_GSL_1134	1
DTU_2022_1014209_1_MG_NL_RO_210922_GSL_1135	1
DTU_2022_1014210_1_MG_NL_RO_210929_GSL_1136	1
DTU_2022_1014211_1_MG_NL_RO_211007_GSL_1137	1
DTU_2022_1014213_1_MG_NL_RO_211020_GSL_1139	1
DTU_2022_1014215_1_MG_NL_RO_211103_GSL_1141	1
DTU_2022_1014216_1_MG_IT_BO_200312_GSL_34	1
DTU_2022_1014218_1_MG_IT_BO_200324_GSL_59	1
DTU_2022_1014220_1_MG_IT_BO_200407_GSL_60	1
DTU_2022_1014222_1_MG_IT_BO_200421_GSL_105	1
DTU_2022_1014224_1_MG_IT_BO_200505_GSL_74	1
DTU_2022_1014226_1_MG_IT_BO_200518_GSL_36	1
DTU_2022_1014228_1_MG_IT_BO_200601_GSL_64	1
DTU_2022_1014231_1_MG_IT_BO_200623_GSL_139	1
DTU_2022_1015033_1_MG_IT_BO_200709_GSL_142	1
DTU_2022_1015035_1_MG_IT_BO_200723_GSL_192	1
DTU_2022_1015037_1_MG_IT_BO_200806_GSL_189	1
DTU_2022_1015039_1_MG_IT_BO_200825_GSL_209	1
DTU_2022_1015041_1_MG_IT_BO_200908_GSL_211	1
DTU_2022_1015043_1_MG_IT_BO_200922_GSL_291	1
DTU_2022_1015045_1_MG_IT_BO_201008_GSL_409	1
DTU_2022_1015047_1_MG_IT_BO_201020_GSL_294	1
DTU_2022_1015050_1_MG_IT_BO_201110_GSL_299	1
DTU_2022_1015052_1_MG_IT_BO_201126_GSL_414	1
DTU_2022_1015054_1_MG_IT_BO_201210_GSL_417	1
DTU_2022_1015056_1_MG_IT_BO_201222_GSL_420	1
DTU_2022_1015058_1_MG_IT_BO_210105_GSL_423	1
DTU_2022_1015060_1_MG_IT_BO_210119_GSL_725	1
DTU_2022_1015062_1_MG_IT_BO_210202_GSL_764	1
DTU_2022_1015064_1_MG_IT_BO_210223_GSL_793	1
DTU_2022_1015066_1_MG_IT_BO_210309_GSL_795	1
DTU_2022_1015068_1_MG_IT_BO_210323_GSL_856	1
DTU_2022_1015070_1_MG_IT_BO_210413_GSL_857	1
DTU_2022_1015072_1_MG_IT_BO_210427_GSL_860	1
DTU_2022_1015073_1_MG_IT_RO_200317_GSL_1	1
DTU_2022_1015075_1_MG_IT_RO_200331_GSL_3	1
DTU_2022_1015077_1_MG_IT_RO_200414_GSL_5	1
DTU_2022_1015078_1_MG_IT_RO_200421_GSL_84	1
DTU_2022_1015081_1_MG_IT_RO_200512_GSL_87	1
DTU_2022_1015083_1_MG_IT_RO_200526_GSL_89	1
DTU_2022_1015085_1_MG_IT_RO_200616_GSL_91	1
DTU_2022_1015087_1_MG_IT_RO_200630_GSL_351	1
DTU_2022_1015089_1_MG_IT_RO_200714_GSL_353	1
DTU_2022_1015091_1_MG_IT_RO_200731_GSL_355	1
DTU_2022_1015093_1_MG_IT_RO_200813_GSL_357	1
DTU_2022_1015094_1_MG_IT_RO_200826_GSL_358	1
DTU_2022_1015096_1_MG_IT_RO_200908_GSL_360	1
DTU_2022_1015098_1_MG_IT_RO_200922_GSL_362	1
DTU_2022_1015100_1_MG_IT_RO_201006_GSL_364	1
DTU_2022_1015103_1_MG_IT_RO_201027_GSL_367	1
DTU_2022_1015105_1_MG_IT_RO_201110_GSL_369	1
DTU_2022_1015107_1_MG_IT_RO_201124_GSL_371	1
DTU_2022_1015108_1_MG_IT_RO_201201_GSL_372	1
DTU_2022_1015109_1_MG_IT_RO_201209_GSL_373	1
DTU_2022_1017057_1_MG_EKU_TSA_032022	1
DTU_2022_1017058_1_MG_EKU_RYN_032022	1
DTU_2022_1017059_1_MG_TSH_RIET_032022	1
DTU_2022_1017060_1_MG_TSH_ZEEK_032022	1
DTU_2022_1017061_1_MG_EKU_TSA_042022	1
DTU_2022_1017062_1_MG_EKU_RYN_042022	1
DTU_2022_1017063_1_MG_TSH_RIET_042022	1
DTU_2022_1017064_1_MG_TSH_ZEEK_042022	1
DTU_2022_1017065_1_MG_EKU_TSA_052022	1
DTU_2022_1017066_1_MG_EKU_RYN_052022	1
DTU_2022_1017067_1_MG_TSH_RIET_052022	1
DTU_2022_1017068_1_MG_TSH_ZEEK_052022	1
DTU_2022_1017069_1_MG_EKU_TSA_122021	1
DTU_2022_1017070_1_MG_EKU_RYN_122021	1
DTU_2022_1017071_1_MG_TSH_RIET_122021	1
DTU_2022_1017072_1_MG_TSH_ZEEK_122021	1
DTU_2022_1017073_1_MG_EKU_TSA_012022	1
DTU_2022_1017074_1_MG_EKU_RYN_012022	1
DTU_2022_1017075_1_MG_TSH_RIET_012022	1
DTU_2022_1017076_1_MG_TSH_ZEEK_012022	1
DTU_2022_1017077_1_MG_EKU_TSA_022022	1
DTU_2022_1017078_1_MG_EKU_RYN_022022	1
DTU_2022_1017079_1_MG_TSH_RIET_022022	1
DTU_2022_1017080_1_MG_TSH_ZEEK_022022	1
DTU_2022_1025799_1_MG_EKU_RYN_092022	1
DTU_2022_1025800_1_MG_TSH_RIET_092022	1
DTU_2022_1025801_1_MG_TSH_ZEEK_092022	1
DTU_2022_1025802_1_MG_DBN_CRL_092022	1
DTU_2022_1025804_1_MG_EKU_TSA_102022	1
DTU_2022_1025805_1_MG_EKU_RYN_102022	1
DTU_2022_1025806_1_MG_TSH_RIET_102022	1
DTU_2022_1025807_1_MG_TSH_ZEEK_102022	1
DTU_2022_1025808_1_MG_DBN_CRL_102022	1
DTU_2022_1025809_1_MG_ELN_EBK_102022	1
DTU_2022_1025810_1_MG_EKU_TSA_112022	1
DTU_2022_1025811_1_MG_EKU_RYN_112022	1
DTU_2022_1025812_1_MG_TSH_RIET_112022	1
DTU_2022_1025813_1_MG_TSH_ZEEK_112022	1
DTU_2022_1025814_1_MG_DBN_CRL_112022	1
DTU_2022_1025815_1_MG_ELN_EBK_112022	1
DTU_2022_1025816_1_MG_EKU_TSA_062022	1
DTU_2022_1025817_1_MG_EKU_RYN_062022	1
DTU_2022_1025818_1_MG_TSH_RIET_062022	1
DTU_2022_1025819_1_MG_TSH_ZEEK_062022	1
DTU_2022_1025820_1_MG_EKU_TSA_072022	1
DTU_2022_1025821_1_MG_EKU_RYN_072022	1
DTU_2022_1025822_1_MG_TSH_RIET_072022	1
DTU_2022_1025823_1_MG_TSH_ZEEK_072022	1
DTU_2022_1025824_1_MG_DBN_CRL_072022	1
DTU_2022_1025825_1_MG_ELN_EBK_072022	1
DTU_2022_1025826_1_MG_EKU_TSA_082022	1
DTU_2022_1025827_1_MG_EKU_RYN_082022	1
DTU_2022_1025828_1_MG_TSH_RIET_082022	1
DTU_2022_1025829_1_MG_TSH_ZEEK_082022	1
DTU_2022_1025830_1_MG_DBN_CRL_082022	1
DTU_2022_1025831_1_MG_ELN_EBK_082022	1
DTU_2022_1025832_1_MG_EKU_TSA_032022	1
DTU_2022_1025833_1_MG_EKU_RYN_032022	1
DTU_2022_1025834_1_MG_TSH_RIET_032022	1
DTU_2022_1025835_1_MG_TSH_ZEEK_032022	1
DTU_2022_1025836_1_MG_EKU_TSA_042022	1
DTU_2022_1025837_1_MG_EKU_RYN_042022	1
DTU_2022_1025838_1_MG_TSH_RIET_042022	1
DTU_2022_1025839_1_MG_TSH_ZEEK_042022	1
DTU_2022_1025840_1_MG_EKU_TSA_052022	1
DTU_2022_1025841_1_MG_EKU_RYN_052022	1
DTU_2022_1025842_1_MG_TSH_RIET_052022	1
Dakar, Senegal	1
Dunedin, New Zealand	1
ESw5INH01	1
ESw5INH02	1
ESw5INH03	1
ESw5INH04	1
ESw5INH05	1
ESw5INH06	1
ESw5INH07	1
ESw5INH08	1
ESw5INH09	1
ESw5INH10	1
ESw5INH11	1
ESw5INH12	1
ESw5INH15	1
ESw5INH16	1
ESw5INH18	1
ESw5INH19	1
ESw5INH22	1
ESw5INH23	1
ESw5INH24	1
ESw5INH27	1
ESw5INH29	1
ESw5INH30	1
ESw5INH31	1
ESw5INH32	1
Ectomycorrhizal soil fungal communities in Stand 100 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 100 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 100 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 100 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 100 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 20 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 20 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 20 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 20 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 20 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 22 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 22 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 22 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 22 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 22 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 24 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 24 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 24 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 24 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 24 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 3 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 3 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 3 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 3 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 3 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 31 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 31 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 31 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 31 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 31 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 41 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 41 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 41 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 41 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 50 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 50 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 50 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 50 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 50 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 58 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 58 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 58 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 58 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 58 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 6 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 6 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 6 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 6 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 6 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 7 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 7 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 7 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 7 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 7 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 9 Tree1 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 9 Tree2 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 9 Tree3 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 9 Tree4 of the Manistee Inorganic Nitrogen Gradient Project.	1
Ectomycorrhizal soil fungal communities in Stand 9 Tree5 of the Manistee Inorganic Nitrogen Gradient Project.	1
El Paso,TX, USA	1
End testing	1
Entire specimens of Bankia setacea	1
Fensom sample, mineral layer, OM0C0 treatment, replicate 1	1
Fensom sample, mineral layer, OM0C0 treatment, replicate 2	1
Fensom sample, mineral layer, OM0C0 treatment, replicate 3	1
Fensom sample, mineral layer, OM1C0 treatment, replicate 1	1
Fensom sample, mineral layer, OM1C0 treatment, replicate 2	1
Fensom sample, mineral layer, OM1C0 treatment, replicate 3	1
Fensom sample, mineral layer, OM2C0 treatment, replicate 1	1
Fensom sample, mineral layer, OM2C0 treatment, replicate 2	1
Fensom sample, mineral layer, OM2C0 treatment, replicate 3	1
Fensom sample, mineral layer, OM3C0 treatment, replicate 1	1
Fensom sample, mineral layer, OM3C0 treatment, replicate 2	1
Fensom sample, mineral layer, OM3C0 treatment, replicate 3	1
Fensom sample, organic layer, OM0C0 treatment, replicate 1	1
Fensom sample, organic layer, OM0C0 treatment, replicate 2	1
Fensom sample, organic layer, OM0C0 treatment, replicate 3	1
Fensom sample, organic layer, OM1C0 treatment, replicate 1	1
Fensom sample, organic layer, OM1C0 treatment, replicate 2	1
Fensom sample, organic layer, OM1C0 treatment, replicate 3	1
Fensom sample, organic layer, OM2C0 treatment, replicate 1	1
Fensom sample, organic layer, OM2C0 treatment, replicate 2	1
Fensom sample, organic layer, OM2C0 treatment, replicate 3	1
Flat Centered-204-Organic	1
Flat Centered-210-Mineral	1
Flat Centered-210-Organic	1
Flat Centered-214-Mineral	1
Flat Centered-214-Organic	1
Freshwater metagenome from Attersee Lake, Austria; 150m depth, 24oct2019, filtersize 0.22 um	1
Freshwater metagenome from Attersee Lake, Austria; 5m depth, 24oct2019, filtersize 0.22 um	1
Freshwater metagenome from Greifensee Lake, Austria; 20m depth, 7nov2019, filtersize 0.22 um	1
Freshwater metagenome from Greifensee Lake, Austria; 5m depth, 7nov2019, filtersize 0.22 um	1
Freshwater metagenome from Ikeda Lake, Japan; 100m depth, 17sep2015, filtersize 0.22 um	1
Freshwater metagenome from Ikeda Lake, Japan; 150m depth, 17sep2015, filtersize 0.22 um	1
Freshwater metagenome from Ikeda Lake, Japan; 200m depth, 17sep2015, filtersize 0.22 um	1
Freshwater metagenome from Ikeda Lake, Japan; 50m depth, 17sep2015, filtersize 0.22 um	1
Freshwater metagenome from Ikeda Lake, Japan; 5m depth, 17sep2015, filtersize 0.22 um	1
Freshwater metagenome from Jiricka Lake, Czechia; 1m depth, 19feb2018, filtersize 0.22 um	1
Freshwater metagenome from Lake Attersee, Austria; 150 m depth, 03-May-2019	1
Freshwater metagenome from Lake Attersee, Austria; 5 m depth, 03-May-2019	1
Freshwater metagenome from Lake Greifensee, Switzerland; 5 m depth, 03-Apr-2019	1
Freshwater metagenome from Lake Lugano, Italy; 5 m depth, 02-Apr-2019	1
Freshwater metagenome from Lake Lugano, Italy; 50 m depth, 02-Apr-2019	1
Freshwater metagenome from Lake Maggiore, Italy; 300 m depth, 09-Apr-2019	1
Freshwater metagenome from Lake Maggiore, Italy; 5 m depth, 09-Apr-2019	1
Freshwater metagenome from Lake Medard, Czechia; 20 m depth, 09-Apr-2019	1
Freshwater metagenome from Lake Medard, Czechia; 20 m depth, 09-Jul-2019	1
Freshwater metagenome from Lake Medard, Czechia; 5 m depth, 09-Apr-2019	1
Freshwater metagenome from Lake Medard, Czechia; 5 m depth, 09-Jul-2019	1
Freshwater metagenome from Lake Milada, Czechia; 15 m depth, 16-Apr-2019	1
Freshwater metagenome from Lake Milada, Czechia; 15 m depth, 22-Jul-2019	1
Freshwater metagenome from Lake Milada, Czechia; 5 m depth, 16-Apr-2019	1
Freshwater metagenome from Lake Milada, Czechia; 5 m depth, 22-Jul-2019	1
Freshwater metagenome from Lake Mondsee, Austria; 40 m depth, 02-May-2019	1
Freshwater metagenome from Lake Mondsee, Austria; 5 m depth, 02-May-2019	1
Freshwater metagenome from Lake Most, Czechia; 5 m depth, 30-Apr-2019	1
Freshwater metagenome from Lake Most, Czechia; 5 m depth, 30-Jul-2019	1
Freshwater metagenome from Lake Most, Czechia; 50 m depth, 30-Jul-2019	1
Freshwater metagenome from Lake Most, Czechia; 60 m depth, 30-Apr-2019	1
Freshwater metagenome from Lake Thun, Switzerland; 5 m depth, 08-Apr-2019	1
Freshwater metagenome from Lake Thun, Switzerland; 5 m depth, June-2018	1
Freshwater metagenome from Lake Traunsee, Austria; 5 m depth, 03-May-2019	1
Freshwater metagenome from Lake Traunsee, Austria; 90 m depth, 03-May-2019	1
Freshwater metagenome from Lake Zurich, Switzerland; 80 m depth, 03-Apr-2019	1
Freshwater metagenome from Lugano Lake, Italy; 50m depth, 5nov2019, filtersize 0.22 um	1
Freshwater metagenome from Lugano Lake, Italy; 5m depth, 5nov2019, filtersize 0.22 um	1
Freshwater metagenome from Maggiore Lake, Italy; 100m depth, 17oct2019, filtersize 0.22 um	1
Freshwater metagenome from Maggiore Lake, Italy; 300m depth, 17oct2019, filtersize 0.22 um	1
Freshwater metagenome from Maggiore Lake, Italy; 300m depth, 4nov2019, filtersize 0.22 um	1
Freshwater metagenome from Maggiore Lake, Italy; 5m depth, 17oct2019, filtersize 0.22 um	1
Freshwater metagenome from Maggiore Lake, Italy; 5m depth, 4nov2019, filtersize 0.22 um	1
Freshwater metagenome from Medard Lake, Czechia; 30m depth, 21oct2019, filtersize 0.22 um	1
Freshwater metagenome from Medard Lake, Czechia; 5m depth, 21oct2019, filtersize 0.22 um	1
Freshwater metagenome from Milada Lake, Czechia; 15m depth, 14oct2019, filtersize 0.22 um	1
Freshwater metagenome from Milada Lake, Czechia; 5m depth, 14oct2019, filtersize 0.22 um	1
Freshwater metagenome from Mondsee Lake, Austria; 40m depth, 23oct2019, filtersize 0.22 um	1
Freshwater metagenome from Mondsee Lake, Austria; 5m depth, 23oct2019, filtersize 0.22 um	1
Freshwater metagenome from Most Lake, Czechia; 5m depth, 1oct2019, filtersize 0.22 um	1
Freshwater metagenome from Most Lake, Czechia; 60m depth, 1oct2019, filtersize 0.22 um	1
Freshwater metagenome from Thun Lake, Switzerland; 180m depth, 11nov2019, filtersize 0.22 um	1
Freshwater metagenome from Thun Lake, Switzerland; 180m depth, 5oct2018, filtersize 0.22 um	1
Freshwater metagenome from Thun Lake, Switzerland; 5m depth, 11nov2019, filtersize 0.22 um	1
Freshwater metagenome from Traunsee Lake, Austria; 150m depth, 25oct2019, filtersize 0.22 um	1
Freshwater metagenome from Traunsee Lake, Austria; 5m depth, 25oct2019, filtersize 0.22 um	1
Freshwater metagenome from Zurich Lake, Switzerland; 0.5m depth, 15may2019, filtersize 0.22 um	1
Freshwater metagenome from Zurich Lake, Switzerland; 5m depth, 11jul2018, filtersize 0.22 um	1
Freshwater metagenome from Zurich Lake, Switzerland; 5m depth, 13nov2019, filtersize 0.22 um	1
Freshwater metagenome from Zurich Lake, Switzerland; 5m depth, 15may2019, filtersize 0.22 um	1
Freshwater metagenome from Zurich Lake, Switzerland; 80m depth, 13nov2019, filtersize 0.22 um	1
Freshwater metagenome from Zurich Lake, Switzerland; 80m depth, 15may2019, filtersize 0.22 um	1
Freshwater metagenomes from Jiricka pond, Czech Republic; 0.5m depth, 07aug2017, filtersize 0.22um	1
Freshwater metagenomes from Jiricka pond, Czech Republic; 0.5m depth, 11may2016, filtersize 0.22um	1
Freshwater metagenomes from Jiricka pond, Czech Republic; 0.5m depth, 25may2017, filtersize 0.22um	1
Freshwater metagenomes from Jiricka pond, Czech Republic; 0.5m depth, 28aug2017, filtersize 0.22um	1
Freshwater metagenomes from Jiricka pond, Czech Republic; 0.5m depth, 28jun2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 04nov2015, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 09nov2016, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 14apr2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 15aug2016, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 16jun2015, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 18aug2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 20apr2016, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 23may2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 26jul2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 0.5m depth, 27jun2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 30m depth, 09nov2016, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 30m depth, 14apr2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 30m depth, 15aug2016, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 30m depth, 18aug2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 30m depth, 20apr2016, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 30m depth, 23may2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 30m depth, 26jul2017, filtersize 0.22um	1
Freshwater metagenomes from Rimov resevoir, Czech Republic; 30m depth, 27jun2017, filtersize 0.22um	1
Freshwater sediment core slice from Uncas Pond MA. Aseptically collected subsample.	1
Galway, Ireland	1
Gotheborg, Sweden	1
Guangzhou, China	1
HEPA debris	1
HEPA debris PMA treated	1
Healthy P. comosa from Bonny Hills: 11 tubes: BH_H1 is a cotton swab of surface, BH_H1_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Bonny Hills: 11 tubes: BH_H2 is a cotton swab of surface, BH_H2_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Bonny Hills: 11 tubes: BH_H3 is a cotton swab of surface, BH_H3_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Cronulla: 11 tubes: C_H1 is a cotton swab of surface, C_H1_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Cronulla: 11 tubes: C_H2 is a cotton swab of surface, C_H2_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Cronulla: 11 tubes: C_H3 is a cotton swab of surface, C_H3_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Diamond Head: 11 tubes: DH_H1 is a cotton swab of surface, DH_H1_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Diamond Head: 11 tubes: DH_H2 is a cotton swab of surface, DH_H2_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Diamond Head: 11 tubes: DH_H3 is a cotton swab of surface, DH_H3_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Palm Beach: 11 tubes: PB_H1 is a cotton swab of surface, PB_H1_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Palm Beach: 11 tubes: PB_H2 is a cotton swab of surface, PB_H2_A-J are 10 replicate tissue samples	1
Healthy P. comosa from Palm Beach: 11 tubes: PB_H3 is a cotton swab of surface, PB_H3_A-J are 10 replicate tissue samples	1
Helsinki, Finland	1
Herrenschwanden, Switzerland	1
High Centered-50-Organic	1
High Centered-53-Mineral	1
High Centered-53-Organic	1
Ho Chi Minh, Vietnam	1
Ibadan, Nigeria	1
Illinois Formation Water	1
Inoculum	1
Iowa, Continuous corn soil metagenome reference core	1
Iowa, Native Prairie soil metagenome reference core	1
Jensen43.sediment.1	1
Jensen43.sediment.11	1
Jensen43.sediment.12	1
Jensen43.sediment.14	1
Jensen43.sediment.16	1
Jensen43.sediment.17	1
Jensen43.sediment.2	1
Jensen43.sediment.21	1
Jensen43.sediment.22	1
Jensen43.sediment.26	1
Jensen43.sediment.27	1
Jensen43.sediment.31	1
Jensen43.sediment.32	1
Jensen43.sediment.33	1
Jensen43.sediment.34	1
Jensen43.sediment.36	1
Jensen43.sediment.43	1
Jensen43.sediment.6	1
Jensen43.sediment.7	1
Jerusalem, Israel	1
Johannesburg, South Africa	1
Kansas, Cultivated corn soil metagenome reference core	1
Kansas, Native Prairie metagenome reference core	1
Karachi, Pakistan	1
Kathmandu, Nepal	1
Kefir	1
Keywords: GSC:MIxS;MIMAG:6.0	1
Kitwe, Zambia	1
Kurth sample, mineral layer, OM0C0 treatment, replicate 1	1
Kurth sample, mineral layer, OM0C0 treatment, replicate 2	1
Kurth sample, mineral layer, OM0C0 treatment, replicate 3	1
Kurth sample, mineral layer, OM1C0 treatment, replicate 1	1
Kurth sample, mineral layer, OM1C0 treatment, replicate 2	1
Kurth sample, mineral layer, OM1C0 treatment, replicate 3	1
Kurth sample, mineral layer, OM2C0 treatment, replicate 1	1
Kurth sample, mineral layer, OM2C0 treatment, replicate 2	1
Kurth sample, mineral layer, OM3C0 treatment, replicate 1	1
Kurth sample, mineral layer, OM3C0 treatment, replicate 2	1
Kurth sample, mineral layer, OM3C0 treatment, replicate 3	1
Kurth sample, organic layer, OM0C0 treatment, replicate 1	1
Kurth sample, organic layer, OM0C0 treatment, replicate 2	1
Kurth sample, organic layer, OM0C0 treatment, replicate 3	1
Kurth sample, organic layer, OM1C0 treatment, replicate 1	1
Kurth sample, organic layer, OM1C0 treatment, replicate 2	1
Kurth sample, organic layer, OM1C0 treatment, replicate 3	1
Kurth sample, organic layer, OM2C0 treatment, replicate 1	1
Kurth sample, organic layer, OM2C0 treatment, replicate 2	1
Kurth sample, organic layer, OM2C0 treatment, replicate 3	1
Kurth sample, organic layer, OM3C0 treatment, replicate 1	1
Kurth sample, organic layer, OM3C0 treatment, replicate 2	1
Kurth sample, organic layer, OM3C0 treatment, replicate 3	1
L. variegata from Nielsen Park: 11 tubes: NP_LO_8 is a cotton swab of surface, NP_LO_8_A-J are 10 replicate tissue samples	1
L. variegata from Nielsen Park: 11 tubes: NP_LO_9 is a cotton swab of surface, NP_LO_9_A-J are 10 replicate tissue samples	1
Lake Ekoln	1
Lake Erken	1
Lake Limmaren	1
Lake L�ngsj�n	1
Lake Michigan sediment collected in the middle of the lake, station 11	1
Lake Michigan sediment collected in the middle of the lake, station 18	1
Lake Michigan sediment collected in the middle of the lake, station 41	1
Lake Michigan sediment in site 1 near Manitocwoc WWTP	1
Lake Michigan sediment in site 10 near Manitocwoc WWTP	1
Lake Michigan sediment in site 11 near Manitocwoc WWTP	1
Lake Michigan sediment in site 12 near Manitocwoc WWTP	1
Lake Michigan sediment in site 13 near Manitocwoc WWTP	1
Lake Michigan sediment in site 14 near Manitocwoc WWTP	1
Lake Michigan sediment in site 2 near Sheboygan WWTP	1
Lake Michigan sediment in site 3 near Manitocwoc WWTP	1
Lake Michigan sediment in site 3 near Sheboygan WWTP	1
Lake Michigan sediment in site 4 near Manitocwoc WWTP	1
Lake Michigan sediment in site 4 near Sheboygan WWTP	1
Lake Michigan sediment in site 5 near Manitocwoc WWTP	1
Lake Michigan sediment in site 5 near Sheboygan WWTP	1
Lake Michigan sediment in site 6 near Sheboygan WWTP	1
Lake Michigan sediment in site 7 near Manitocwoc WWTP	1
Lake Michigan sediment in site 8 near Manitocwoc WWTP	1
Lake Michigan sediment in site 9 near Manitocwoc WWTP	1
Lake M�laren (Drottingholm)	1
Lake Norrviken	1
Lake Rotsee, in situ water column sample (9m)	1
Lake Rotsee, water column sample (9m), methane-supplemented light incubation (11 days)	1
Lake Rotsee, water column sample (9m), oxygen- and methane-supplemented dark incubation (11 days)	1
Lake Trehorningen	1
Lake Valentuna	1
Lake Zug, in situ water column sample (160 m)	1
Lake Zug, water column (160m), nitrate- and methane-supplemented dark incubation (16 days)	1
Lake Zug, water column (160m), oxygen- and methane-supplemented dark incubation (11 days)	1
Lima, Peru	1
Ljubljana, Slovenia	1
Lome, Togo	1
Low Centered-405-Mineral	1
Low Centered-405-Organic	1
Low Centered-408.5-Mineral	1
Low Centered-408.5-Organic	1
Low Centered-411-Organic	1
Low Centered-415-Organic	1
Lusaka, Zambia	1
MIS.2016.135 DNA sample btw tents, ucore	1
Manitowoc wastewater treatment plant effluent (1.6um filter)	1
Melbourne, Australia	1
Metagenomic sample from cyanide and thiocyanate bioreactor used to study SCN- and CN- degradation by established microbial consortia	1
Metagenomic sample from thiocyanate bioreactor used to study SCN- and CN- degradation by established microbial consortia	1
Microbial communities from bioreactor (seeded with sewage sludge) at LBNL, California, USA - Biofuel metagenome 4	1
Microbial communities from bioreactor (seeded with sewage sludge) at Lawrence Berkeley National Lab, California, USA - Biofuel Metagenome 8	1
Microbial communities from bioreactor (seeded with sewage sludge) at Lawrence Berkeley National Lab, California, USA - Biofuel Metagenome 9	1
Mixed microbial community from sediment metagenome at 25 cm below sea floor from Baltic Sea Basin (Little Belt, Denmark)	1
Moshi, Tanzania	1
Mosquera, Colombia	1
NICU room sample S2_003_000_R1	1
NICU room sample S2_003_000_R2	1
NICU room sample S2_003_000_R3	1
NICU room sample S2_005_001_R1	1
NICU room sample S2_005_001_R2	1
NICU room sample S2_005_001_R3	1
NICU room sample S2_005_002_R1	1
NICU room sample S2_005_002_R2	1
NICU room sample S2_005_002_R3	1
NICU room sample S2_005_003_R1	1
NICU room sample S2_005_003_R2	1
NICU room sample S2_005_003_R3	1
NICU room sample S2_006_000_R1	1
NICU room sample S2_006_000_R2	1
NICU room sample S2_006_000_R3	1
NICU room sample S2_009_000_R1	1
NICU room sample S2_009_000_R2	1
NICU room sample S2_009_000_R3	1
NICU room sample S2_012_000_R1	1
NICU room sample S2_012_000_R2	1
NICU room sample S2_012_000_R3	1
NICU room sample S2_018_000_R1	1
NICU room sample S2_018_000_R2	1
NICU room sample S2_018_000_R3	1
Nairobi, Kenya	1
NextSeq1 was a re-sequence of some samples from ELF001A. This was a new negative control for this sequencing run.	1
Northern Mongolian soil 454	1
Northern Mongolian soil 455	1
Northern Mongolian soil 456	1
Northern Mongolian soil 457	1
Northern Mongolian soil 460	1
Northern Mongolian soil 461	1
Northern Mongolian soil 462	1
Northern Mongolian soil 463	1
Northern Mongolian soil 466	1
Northern Mongolian soil 467	1
Northern Mongolian soil 468	1
Northern Mongolian soil 469	1
Offshore of Scripps pier, 100m	1
Offshore of Scripps pier, 50m	1
Offshore of Scripps pier, surface	1
Oil seeps ecosystem from Coal Oil Point, Santa Barbara, California, USA - Sample 1.	1
Oil seeps ecosystem from Coal Oil Point, Santa Barbara, California, USA - Sample 2	1
Oil seeps ecosystem from Coal Oil Point, Santa Barbara, California, USA - Sample 3	1
Oslo, Norway	1
Ottawa, Canada	1
OutsideFarm_10_2018-10-01	1
OutsideFarm_11_2018-10-03	1
OutsideFarm_12_2018-10-06	1
OutsideFarm_13_2018-10-07	1
OutsideFarm_1_2018-09-05	1
OutsideFarm_2_2018-09-10	1
OutsideFarm_3_2018-09-11	1
OutsideFarm_4_2018-09-12	1
OutsideFarm_5_2018-09-17	1
OutsideFarm_6_2018-09-20	1
OutsideFarm_7_2018-09-22	1
OutsideFarm_8_2018-09-24	1
OutsideFarm_9_2018-09-28	1
P. crassa from Nielsen Park: 11 tubes: NP_PA_2 is a cotton swab of surface, NP_PA_2_A-J are 10 replicate tissue samples	1
P. crassa from Nielsen Park: 11 tubes: NP_PA_3 is a cotton swab of surface, NP_PA_3_A-J are 10 replicate tissue samples	1
Palapye, Botswana	1
Permafrost soil t15.0m	1
Permafrost soil t15.100m	1
Permafrost soil t15.104m	1
Permafrost soil t15.12m	1
Permafrost soil t15.32m	1
Permafrost soil t15.40m	1
Permafrost soil t15.44m	1
Permafrost soil t15.4m	1
Permafrost soil t15.52m	1
Permafrost soil t15.60m	1
Permafrost soil t15.64m	1
Permafrost soil t15.72m	1
Permafrost soil t15.80m	1
Permafrost soil t15.84m	1
Permafrost soil t15.92m	1
Phnom Penh, Cambodia	1
Portland, OR, USA	1
Pristina, Kosovo	1
Processed in the lab with sample 119B from 355 cm in ELF059A. Sequenced in NextSeq run 3.	1
Pulawy, Poland	1
Quito, Ecuador	1
Raw shotgun metagenomic sequencing reads and assembled metagenome generated from cultures of two groups of one dollar bills collected in October 2013 from a bank in New York City	1
Raw shotgun metagenomic sequencing reads and assembled metagenome generated from one dollar bills collected in February 2012 from a bank in New York City	1
Raw shotgun metagenomic sequencing reads and assembled metagenome generated from one dollar bills collected in June 2013 from a bank in New York City	1
Reef Water sampled from site Bills Bay,Ningaloo,Australia as sample E7.Water.1.20150621 of the Global Coral Microbiome Project.	1
Reef Water sampled from site Isla Contadora,Las Perlas,Panama as sample E11.Water.1.20150501 of the Global Coral Microbiome Project.	1
Reference	1
Regina, Canada	1
Reykjavik, Iceland	1
Riga, Latvia	1
Rome, Italy	1
S replicate 1	1
S replicate 2	1
S replicate 3	1
S+R replicate 1	1
S+R replicate 2	1
S+R replicate 3	1
S. linearifolium from Nielsen Park: 11 tubes: NP_SL_16 is a cotton swab of surface, NP_SL_16_A-J are 10 replicate tissue samples	1
S. linearifolium from Nielsen Park: 11 tubes: NP_SL_17 is a cotton swab of surface, NP_SL_17_A-J are 10 replicate tissue samples	1
S. linearifolium from Nielsen Park: 11 tubes: NP_SL_18 is a cotton swab of surface, NP_SL_18_A-J are 10 replicate tissue samples	1
S. vestitum from Nielsen Park: 11 tubes: NP_SA_13 is a cotton swab of surface, NP_SA_13_A-J are 10 replicate tissue samples	1
S. vestitum from Nielsen Park: 11 tubes: NP_SA_14 is a cotton swab of surface, NP_SA_14_A-J are 10 replicate tissue samples	1
S. vestitum from Nielsen Park: 11 tubes: NP_SA_15 is a cotton swab of surface, NP_SA_15_A-J are 10 replicate tissue samples	1
SAF vacuum cleaner bag debris	1
SAF vacuum cleaner bag debris PMA treated	1
SR-VP_26_10_2019_1_100cm	1
SR-VP_26_10_2019_1_90cm	1
SR-VP_26_10_2019_2_100cm	1
SR-VP_26_10_2019_2_90cm	1
SR-VP_26_10_2019_B_20cm	1
SR-VP_26_10_2019_B_35cm	1
SR-VP_26_10_2019_B_40cm	1
SR-VP_26_10_2019_C_20cm	1
SR-VP_26_10_2019_C_30cm	1
SR-VP_26_10_2019_C_40cm	1
SRVP18_core_1_35-25cm	1
SRVP18_core_1_40-35cm	1
SRVP18_hole-7m-from-trench_1_20cm	1
SRVP18_hole-7m-from-trench_1_80cm	1
SRVP18_poolMud_2_bottom	1
SRVP18_trench_1_20cm	1
SRVP18_trench_1_45cm	1
SRVP18_trench_2_20cm	1
SRVP18_trench_2_45cm	1
SRVP18_trench_3_20cm	1
SRVP18_trench_3_45cm	1
SRVP18_trench_4_45cm	1
SRVP18_trench_5_20cm	1
SRVP18_trench_5_45cm	1
SRVP18_trench_6_20cm	1
SRVP18_trench_6_60cm	1
SRVP18_trench_7_20cm	1
SRVP18_trench_7_45cm	1
SRVP18_trench_8_20cm	1
Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at ClubHead Creek underlying tall Spartina alterniflora	1
Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at Clubhead Creek underlying Spartina patens	1
Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at Nelson Creek underlying tall Spartina alterniflora	1
Salt marsh sediment sample collected from the Plum Island LTER Site in Rowley, MA at Sweeney Creek underlying tall Spartina alterniflora	1
San Cristobal Island, Galapagos, Ecuador	1
Seattle,WA, USA	1
Sediment sample, 0-2cm, site 1326, Fall 2011	1
Sediment sample, 0-2cm, site 1326, Fall 2011 (reanalyzed)	1
Sediment sample, 0-2cm, site 1326, Fall 2013	1
Sediment sample, 0-2cm, site 1326, Spring 2012	1
Sediment sample, 0-2cm, site 1367, Fall 2011	1
Sediment sample, 0-2cm, site 1367, Fall 2012 (realnalyzed)	1
Sediment sample, 0-2cm, site 1367, Fall 2013	1
Sediment sample, 0-2cm, site 1367, Fall 2013 (reanalyzed)	1
Sediment sample, 0-2cm, site 1367, Spring 2012	1
Sediment sample, 0-2cm, site 1367, Spring 2012 (reanalyzed)	1
Sediment sample, 0-2cm, site 198, Fall 2011	1
Sediment sample, 0-2cm, site 379, Fall 2011	1
Sediment sample, 0-2cm, site 444, Fall 2011	1
Sediment sample, 0-2cm, site 444, Fall 2013	1
Sediment sample, 0-2cm, site 498, Fall 2011	1
Sediment sample, 0-2cm, site 498, Fall 2013	1
Sediment sample, 0-2cm, site 498, Spring 2012	1
Sediment sample, 0-2cm, site 902, Fall 2011	1
Sediment sample, 0-2cm, site 902, Fall 2013	1
Sediment sample, 0-2cm, site 902, Spring 2012	1
Sediment sample, 0-2cm, site 910, Fall 2011	1
Sediment sample, 0-2cm, site 910, Fall 2011 (reanalyzed)	1
Sediment sample, 0-2cm, site 910, Fall 2013	1
Sediment sample, 0-2cm, site 910, Fall 2013 (reanalyzed)	1
Sediment sample, 0-2cm, site 910, Spring 2012	1
Sediment sample, 0-2cm, site H01, Fall 2011	1
Sediment sample, 0-2cm, site H01, Spring 2012	1
Sediment sample, 0-2cm, site LTM-M, Spring 2012	1
Sediment sample, 2-4cm, site H01, Fall 2011	1
Sediment sample, 4-8cm, site H01, Fall 2011	1
Sediment sample, 8-12cm, site 1326, Fall 2011	1
Sediment sample, 8-12cm, site 1326, Fall 2013	1
Sediment sample, 8-12cm, site 1326, Spring 2012	1
Sediment sample, 8-12cm, site 1367, Fall 2011	1
Sediment sample, 8-12cm, site 1367, Fall 2013	1
Sediment sample, 8-12cm, site 1367, Spring 2012	1
Sediment sample, 8-12cm, site 444, Fall 2013	1
Sediment sample, 8-12cm, site 498, Fall 2013	1
Sediment sample, 8-12cm, site 902, Fall 2013 (reanalyzed)	1
Sediment sample, 8-12cm, site 910, Fall 2011	1
Sediment sample, 8-12cm, site 910, Fall 2013	1
Sediment sample, 8-12cm, site 910, Spring 2012	1
Sediment sample, 8-12cm, site H01, Fall 2011	1
Sediment sample, 8-12cm, site H01, Spring 2012	1
Sediment-free, anaerobic methane-oxidizing enrichment incubated at 20 degC with methane and sulfate	1
Sediment-free, anaerobic methane-oxidizing enrichment incubated at 37 degC with methane and sulfate	1
Sediment-free, anaerobic methane-oxidizing enrichment incubated at 60 degC with methane and sulfate	1
Sheboygan wastewater treatment plant effluent (1.6um filter)	1
Singapore, Singapore	1
Skopje, Republic of Macedonia	1
Sofia, Bulgaria	1
Soil microbial communities from Rifle, Colorado, USA - sediment 16ft 4	1
South Adams County, CO, USA	1
St. Venera, Malta	1
Start bioreactor flow through	1
Stipe-rot infected P. comosa from Bonny Hills: 11 tubes: BH_S1 is a cotton swab of surface, BH_S1_A-J are 10 replicate tissue samples	1
Stipe-rot infected P. comosa from Bonny Hills: 11 tubes: BH_S2 is a cotton swab of surface, BH_S2_A-J are 10 replicate tissue samples	1
Stipe-rot infected P. comosa from Bonny Hills: 11 tubes: BH_S3 is a cotton swab of surface, BH_S3_A-J are 10 replicate tissue samples	1
Stipe-rot infected P. comosa from Cronulla: 11 tubes: C_S2 is a cotton swab of surface, C_S2_A-J are 10 replicate tissue samples	1
Stipe-rot infected P. comosa from Cronulla: 11 tubes: C_S3 is a cotton swab of surface, C_S3_A-J are 10 replicate tissue samples	1
Stipe-rot infected P. comosa from Diamond Head 11 tubes: DH_S1 is a cotton swab of surface, DH_S1_A-J are 10 replicate tissue samples	1
Stipe-rot infected P. comosa from Diamond Head: 11 tubes: DH_S2 is a cotton swab of surface, DH_S2_A-J are 10 replicate tissue samples	1
Stipe-rot infected P. comosa from Diamond Head: 11 tubes: DH_S3 is a cotton swab of surface, DH_S3_A-J are 10 replicate tissue samples	1
Stipe-rot infected P. comosa from Palm Beach: 11 tubes: PB_S1 is a cotton swab of surface, PB_S1_A-J are 10 replicate tissue samples	1
Stipe-rot infected P. comosa from Palm Beach: 11 tubes: PB_S2 is a cotton swab of surface, PB_S2_A-J are 10 replicate tissue samples	1
Summer Baihe Central deposit 1	1
Summer Baihe Central deposit 2	1
Summer Baihe Central deposit 3	1
Summer Baihe Central deposit 4	1
Summer Baihe Central deposit 5	1
Summer Baihe Riparian 1	1
Summer Baihe Riparian 2	1
Summer Baihe Riparian 3	1
Summer Baihe Riparian 4	1
Summer Baihe Riparian 5	1
Summer Caohe Central deposit 1	1
Summer Caohe Central deposit 2	1
Summer Caohe Central deposit 3	1
Summer Caohe Central deposit 4	1
Summer Caohe Central deposit 5	1
Summer Caohe Riparian 1	1
Summer Caohe Riparian 2	1
Summer Caohe Riparian 3	1
Summer Caohe Riparian 4	1
Summer Caohe Riparian 5	1
Summer Jumahe Central deposit 1	1
Summer Jumahe Central deposit 2	1
Summer Jumahe Central deposit 3	1
Summer Jumahe Central deposit 4	1
Summer Jumahe Central deposit 5	1
Summer Jumahe Riparian 1	1
Summer Jumahe Riparian 2	1
Summer Jumahe Riparian 3	1
Summer Jumahe Riparian 4	1
Summer Jumahe Riparian 5	1
Summer Tanghe Central deposit 1	1
Summer Tanghe Central deposit 2	1
Summer Tanghe Central deposit 3	1
Summer Tanghe Central deposit 4	1
Summer Tanghe Central deposit 5	1
Summer Tanghe Riparian 1	1
Summer Tanghe Riparian 2	1
Summer Tanghe Riparian 3	1
Summer Tanghe Riparian 4	1
Summer Tanghe Riparian 5	1
Summer Zhulonghe Central deposit 1	1
Summer Zhulonghe Central deposit 2	1
Summer Zhulonghe Central deposit 3	1
Summer Zhulonghe Central deposit 4	1
Summer Zhulonghe Central deposit 5	1
Summer Zhulonghe Riparian 1	1
Summer Zhulonghe Riparian 2	1
Summer Zhulonghe Riparian 3	1
Summer Zhulonghe Riparian 4	1
Summer Zhulonghe Riparian 5	1
Surface cryosoil from Kamchatka - BGG_COSDC	1
Surface cryosoil from Kamchatka - BGG_DOSDC	1
Surface cryosoil from Kamchatka - BGG_EOSDC	1
Surface sample at Scripps Pier	1
TH-Jun18 metagenome	1
Tamale, Ghana	1
Tbilisi, Georgia	1
Tehran, Iran	1
Tirana, Albania	1
Toronto, Canada	1
TxAntibiotic_10_2018-10-03	1
TxAntibiotic_11_2018-10-04	1
TxAntibiotic_12_2018-10-05	1
TxAntibiotic_1_2018-09-06	1
TxAntibiotic_2_2018-09-07	1
TxAntibiotic_3_2018-09-13	1
TxAntibiotic_4_2018-09-14	1
TxAntibiotic_5_2018-09-19	1
TxAntibiotic_6_2018-09-20	1
TxAntibiotic_7_2018-09-21	1
TxAntibiotic_8_2018-09-26	1
TxAntibiotic_9_2018-09-29	1
Uppsala, Sweden	1
Vienna, Austria	1
Wells sample, mineral layer, OM0C0 treatment, replicate 1	1
Wells sample, mineral layer, OM0C0 treatment, replicate 2	1
Wells sample, mineral layer, OM0C0 treatment, replicate 3	1
Wells sample, mineral layer, OM1C0 treatment, replicate 1	1
Wells sample, mineral layer, OM1C0 treatment, replicate 2	1
Wells sample, mineral layer, OM1C0 treatment, replicate 3	1
Wells sample, mineral layer, OM2C0 treatment, replicate 1	1
Wells sample, mineral layer, OM2C0 treatment, replicate 2	1
Wells sample, mineral layer, OM2C0 treatment, replicate 3	1
Wells sample, mineral layer, OM3C0 treatment, replicate 1	1
Wells sample, mineral layer, OM3C0 treatment, replicate 2	1
Wells sample, mineral layer, OM3C0 treatment, replicate 3	1
Wells sample, organic layer, OM0C0 treatment, replicate 1	1
Wells sample, organic layer, OM0C0 treatment, replicate 2	1
Wells sample, organic layer, OM0C0 treatment, replicate 3	1
Wells sample, organic layer, OM1C0 treatment, replicate 1	1
Wells sample, organic layer, OM1C0 treatment, replicate 2	1
Wells sample, organic layer, OM1C0 treatment, replicate 3	1
Wells sample, organic layer, OM2C0 treatment, replicate 1	1
Wells sample, organic layer, OM2C0 treatment, replicate 2	1
Wells sample, organic layer, OM2C0 treatment, replicate 3	1
White microbial mat communities from a lava cave in the Kipuka Kanohina Cave System on the Island of Hawaii, USA	1
Winter Baihe Central deposit 1	1
Winter Baihe Central deposit 2	1
Winter Baihe Central deposit 3	1
Winter Baihe Central deposit 4	1
Winter Baihe Central deposit 5	1
Winter Baihe Riparian 1	1
Winter Baihe Riparian 2	1
Winter Baihe Riparian 3	1
Winter Baihe Riparian 4	1
Winter Baihe Riparian 5	1
Winter Caohe Central deposit 1	1
Winter Caohe Central deposit 2	1
Winter Caohe Central deposit 3	1
Winter Caohe Central deposit 4	1
Winter Caohe Central deposit 5	1
Winter Caohe Riparian 1	1
Winter Caohe Riparian 2	1
Winter Caohe Riparian 3	1
Winter Caohe Riparian 4	1
Winter Caohe Riparian 5	1
Winter Jumahe Central deposit 1	1
Winter Jumahe Central deposit 2	1
Winter Jumahe Central deposit 3	1
Winter Jumahe Central deposit 4	1
Winter Jumahe Central deposit 5	1
Winter Jumahe Riparian 1	1
Winter Jumahe Riparian 2	1
Winter Jumahe Riparian 3	1
Winter Jumahe Riparian 4	1
Winter Jumahe Riparian 5	1
Winter Tanghe Central deposit 1	1
Winter Tanghe Central deposit 2	1
Winter Tanghe Central deposit 3	1
Winter Tanghe Central deposit 4	1
Winter Tanghe Central deposit 5	1
Winter Tanghe Riparian 1	1
Winter Tanghe Riparian 2	1
Winter Tanghe Riparian 3	1
Winter Tanghe Riparian 4	1
Winter Tanghe Riparian 5	1
Winter Zhulonghe Central deposit 1	1
Winter Zhulonghe Central deposit 2	1
Winter Zhulonghe Central deposit 3	1
Winter Zhulonghe Central deposit 4	1
Winter Zhulonghe Central deposit 5	1
Winter Zhulonghe Riparian 1	1
Winter Zhulonghe Riparian 2	1
Winter Zhulonghe Riparian 3	1
Winter Zhulonghe Riparian 4	1
Winter Zhulonghe Riparian 5	1
Wisconsin, Continuous corn soil metagenome reference core	1
Wisconsin, Restored Prairie soil metagenome reference core	1
Woden, Australia	1
Wood colonized by Bankia setacea	1
Wood colonized by Lyrodus pedicellatus	1
ZE_Oct18 metagenome	1
ZH-Jul18 metagenome	1
ZH_Oct18 metagenome	1
Zagreb, Croatia	1
agousha (from Russia)	1
anammox biomass from bioreactor (replicate 1)	1
anammox biomass from bioreactor (replicate 2)	1
anammox biomass from bioreactor (replicate 3)	1
anammox biomass from kinetic tests (replicate 1)	1
anammox biomass from kinetic tests (replicate 2)	1
anammox biomass from kinetic tests (replicate 3)	1
anammox biomass from kinetic tests (replicate 4)	1
apple cider vinegar (from Ireland)	1
beet kvass (from Ireland)	1
beetroot kvass (from Ireland)	1
biomass for DNA extraction day1 (enriched anammox seed sludge for reactor start-up)	1
biomass for DNA extraction day204	1
biomass for DNA extraction day210	1
biomass for DNA extraction day213	1
biomass for DNA extraction day261	1
biomass from nitritation reactor (replicate 1)	1
biomass from nitritation reactor (replicate 2)	1
biomass from nitritation reactor (replicate 3)	1
boza (from UK)	1
bread kvass (from Russia)	1
brown rice amazake (from Japan)	1
brussel sprout kimchi (from Ireland)	1
carrot kimchi (from UK)	1
carrot sticks (from Ireland)	1
cherry water kefir (from Ireland)	1
coconut kefir (from Ireland)	1
cryoconite sampled 10 meters from DS-1	1
cryoconite sampled 10 meters from DS-2	1
cryoconite sampled 10 meters from KAN-P-A2	1
cryoconite sampled 10 meters from KAN-P-A3	1
cryoconite sampled 10 meters from QAS-L1	1
cryoconite sampled 10 meters from QAS-L2	1
cryoconite sampled 10 meters from THU-1	1
cryoconite sampled 10 meters from THU-2	1
cryoconite sampled 20 cm from TAS-L-A1a	1
cryoconite sampled 20 cm from TAS-L-A1b	1
cryoconite sampled 20 cm from TAS-L-A2a	1
cryoconite sampled 20 cm from TAS-L-A2b	1
cryoconite sampled 20 cm from TAS-L-A3a	1
cryoconite sampled 20 cm from TAS-L-A3b	1
cryoconite sampled 20 cm from TAS-L-B1a	1
cryoconite sampled 20 cm from TAS-L-B1b	1
cryoconite sampled 20 cm from TAS-L-B2a	1
cryoconite sampled 20 cm from TAS-L-B2b	1
cryoconite sampled 20 cm from TAS-L-B3a	1
cryoconite sampled 20 cm from TAS-L-B3b	1
cryoconite sampled 20 cm from TAS-L-C1a	1
cryoconite sampled 20 cm from TAS-L-C1b	1
cryoconite sampled 20 cm from TAS-L-C2a	1
cryoconite sampled 20 cm from TAS-L-C2b	1
cryoconite sampled 20 cm from TAS-L-C3a	1
cryoconite sampled 20 cm from TAS-L-C3b	1
cryoconite sampled 20 cm from TAS-U-A1a	1
cryoconite sampled 20 cm from TAS-U-A1b	1
cryoconite sampled 20 cm from TAS-U-A2a	1
cryoconite sampled 20 cm from TAS-U-A2b	1
cryoconite sampled 500 meters from KAN-P-A and KAN-P-C	1
cryoconite sampled 500 meters from KAN-P-B and 1 km from KAN-P-A and 10 meters from KAN-P-C1 and KAN-P-C3	1
cryoconite sampled 500 meters from KAN-P-B and 1 km from KAN-P-A and 10 meters from KAN-P-C2	1
cryoconite sampled 500 meters from KAN-P-B and 1 km from KAN-P-A and 10 meters from KAN-P-C2 and 20 meters from KAN-P-C1	1
cucumber (from UK)	1
daikon (from China)	1
daikon radish in 2% brine (from Ireland)	1
dill dearg (from Ireland)	1
dilly carrots (from Ireland)	1
dukkah kraut (from Ireland)	1
garlic kraut (from Ireland)	1
ginger beer (from UK)	1
ginger sliced in 2% brine (from Ireland)	1
golden child (from Ireland)	1
green tomatoes and mustard seeds in 2% brine (from Ireland)	1
hight air flow	1
kefir and fennel soup (from Ireland)	1
kombucha vinegar (from Ireland)	1
krauthehi (from Germany)	1
labne (from Ireland)	1
lemon and ginger fizz (from Ireland)	1
mINHES035	1
mINHES036	1
mead (from Ireland)	1
microbial mat (Lyngbya sp.) from Guerrero Negro, Mexico	1
milk kefir (from UK)	1
municipality channel receiving biologically treated HWW	1
nitritation biomass from kinetic tests (biological replicate 1)	1
nitritation biomass from kinetic tests (biological replicate 2)	1
nitritation biomass from kinetic tests (biological replicate 3)	1
nitritation biomass from kinetic tests (biological replicate 4)	1
no description	1
okra in 2% brine (from Ireland)	1
orange (from UK)	1
pasterised milk kefir (from Ireland)	1
pickled vegetables (from China)	1
playa sample 11666	1
playa sample 12423	1
playa sample 14645	1
playa sample 3148	1
playa sample 3191	1
playa sample 47519	1
playa sample 999	1
raw milk kefir (from Ireland)	1
raw sauerkraut and juniper berries (from Ireland)	1
river receiving treated wastewater	1
rostagro kport voro nyj (from Russia)	1
ruza (from Russia)	1
ryazhenka (from Russia)	1
scallion kimchi (from Ireland)	1
sediment from Cuatro Cienegas Basin, Mexico	1
sediment sample A1	1
sediment sample A2	1
sediment sample A3	1
sediment sample A4	1
sediment sample CC1	1
sediment sample CC2	1
sediment sample CC3	1
sediment sample SJ1	1
sediment sample SJ2	1
sediment sample SJ3	1
soil sample 8.Myrold5.soil.10.HJARA1	1
soil sample 8.Myrold5.soil.11.HJARA2	1
soil sample 8.Myrold5.soil.12.HJARA3	1
soil sample 8.Myrold5.soil.4.CHRA1	1
soil sample 8.Myrold5.soil.7.HJADF1	1
soil sample 8.Myrold59.soil.10.NRCS0206	1
soil sample 8.Myrold59.soil.11.NRCS0221	1
soil sample 8.Myrold59.soil.13.NRCS0326	1
soil sample 8.Myrold59.soil.15.NRCS0356	1
soil sample 8.Myrold59.soil.17.NRCS0386	1
soil sample 8.Myrold59.soil.18.NRCS0426	1
soil sample 8.Myrold59.soil.2.NRCS0056	1
soil sample 8.Myrold59.soil.20.NRCS0466	1
soil sample 8.Myrold59.soil.21.NRCS0476	1
soil sample 8.Myrold59.soil.22.NRCS0526	1
soil sample 8.Myrold59.soil.5.NRCS0096	1
soil sample 8.Myrold59.soil.6.NRCS0166	1
soil sample 8.Myrold59.soil.8.NRCS0176	1
soil sample 8.Myrold59.soil.9.NRCS0181	1
soil sample 9.Myrold5.soil.1.CHDF1	1
soil sample 9.Myrold5.soil.2.CHDF2	1
soil sample 9.Myrold5.soil.3.CHDF3	1
soil sample 9.Myrold5.soil.5.CHRA2	1
soil sample 9.Myrold5.soil.6.CHRA3	1
soil sample 9.Myrold5.soil.8.HJADF2	1
soil sample 9.Myrold5.soil.9.HJADF3	1
soil sample 9.Myrold59.soil.1.NRCS0046	1
soil sample 9.Myrold59.soil.12.NRCS0261	1
soil sample 9.Myrold59.soil.14.NRCS0331	1
soil sample 9.Myrold59.soil.16.NRCS0371	1
soil sample 9.Myrold59.soil.19.NRCS0436	1
soil sample 9.Myrold59.soil.3.NRCS0061	1
soil sample 9.Myrold59.soil.4.NRCS0066	1
soil sample 9.Myrold59.soil.7.NRCS0171	1
street gutter, water	1
stromatolite from Cuatro Cienegas Basin, Mexico	1
tap water	1
tempeh (from UK)	1
tepache (from Mexico)	1
time point 1 / A; 0.1 filter	1
time point 1 / A; 0.2 filter	1
time point 2 / B; 0.1 filter	1
time point 2 / B; 0.2 filter	1
time point 3 / C; 0.1 filter	1
time point 3 / C; 0.2 filter	1
time point 4 / D; 0.1 filter	1
time point 4 / D; 0.2 filter	1
time point 5 / E; 0.1 filter	1
time point 5 / E; 0.2 filter	1
time point 6 / F; 0.1 filter	1
time point 6 / F; 0.2 filter	1
tofu chilli (from China)	1
turnip (from UK)	1
vacuum cleaner bag debris	1
vacuum cleaner bag debris PMA treated	1
wagashi core (from Benin)	1
wagashi rind (from Benin)	1
wastewater treatment plant inflow metagenome	1
water kefir (from UK)	1
water kefir (with pear, ginger and honey) (from Ireland)	1
water kefir (with pear, ginger and sugar) (from Ireland)	1
water kefir ginger (from Ireland)	1
water kefir hibiscus (from Ireland)	1
water kefir lemon (from Ireland)	1
water used for handwashing	1
well water, drinking	1
wetland receiving treated wastewater	1