about
Effects of climate change on the delivery of soil-mediated ecosystem services within the primary sector in temperate ecosystems: a review and New Zealand case study.The abundance of microbial functional genes in grassy woodlands is influenced more by soil nutrient enrichment than by recent weed invasion or livestock exclusion.Firmicutes dominate the bacterial taxa within sugar-cane processing plants.Links between sulphur oxidation and sulphur-oxidising bacteria abundance and diversity in soil microcosms based on soxB functional gene analysis.Life history determines biogeographical patterns of soil bacterial communities over multiple spatial scales.Genome sequence of the clover symbiont Rhizobium leguminosarum bv. trifolii strain CC275e.Influence of geogenic factors on microbial communities in metallogenic Australian soils.Effect of wastewater treatment plant effluent on microbial function and community structure in the sediment of a freshwater stream with variable seasonal flowUsing non-targeted direct analysis in real time-mass spectrometry (DART-MS) to discriminate seeds based on endogenous or exogenous chemicals.The effect of bacteria on the sensitivity of microalgae to copper in laboratory bioassays.Measurements of carbon utilization by single bacterial species in sterile soil: insights into Rhizobium spp.Water quality requirements for sustaining aquifer storage and recovery operations in a low permeability fractured rock aquifer.Geogenic Factors as Drivers of Microbial Community Diversity in Soils Overlying Polymetallic Deposits.Draft Genome Sequence of the Clover (Trifolium repens L.) Root Endophyte Paraburkholderia sp. Strain A27.Draft Genome Sequence of a Kale (Brassica oleracea L.) Root Endophyte, Pseudomonas sp. Strain C9.Gentamicin degradation and changes in fungal diversity and physicochemical properties during composting of gentamicin production residue.Effect of nitrogen and waterlogging on denitrifier gene abundance, community structure and activity in the rhizosphere of wheat.Application of MicroResp™ for soil ecotoxicology.Mechanisms of pollution induced community tolerance in a soil microbial community exposed to Cu.Nitrous oxide emission and denitrifier communities in drip-irrigated calcareous soil as affected by chemical and organic fertilizers.Bacteria, not archaea, restore nitrification in a zinc-contaminated soil.Dynamics of bacterial composition and the fate of antibiotic resistance genes and mobile genetic elements during the co-composting with gentamicin fermentation residue and lovastatin fermentation residue.High spatial variation in population size and symbiotic performance of Rhizobium leguminosarum bv. trifolii with white clover in New Zealand pasture soils.Effect of land use and soil organic matter quality on the structure and function of microbial communities in pastoral soils: Implications for disease suppression.The effects of stubble retention and nitrogen application on soil microbial community structure and functional gene abundance under irrigated maizeBacterial communities associated with a mineral weathering profile at a sulphidic mine tailings dump in arid Western AustraliaImpacts of endophyte infection of ryegrass on rhizosphere metabolome and microbial communityThe effect of Penicillium fungi on plant growth and phosphorus mobilization in neutral to alkaline soils from southern AustraliaThe influence of aggregate size fraction and horizon position on microbial community compositionSilver Toxicity Thresholds for Multiple Soil Microbial BiomarkersStakeholder valuation of soil ecosystem services from New Zealand's planted forestsBiotic interactions drive ecosystem responses to exotic plant invaders
P50
Q30936741-83A6E4AE-59B4-4235-8D00-28A4C94A6D3FQ33624927-A23A81F5-A169-4BB7-BAF1-CD394C720A27Q35029871-B3522A3C-51D1-4AA6-AFD9-FCD17114D328Q35124744-E87CFB2A-6454-41D3-8097-DECBFFCED462Q35267284-183C60E2-314B-43F0-88BD-824E2B120C72Q35863954-31468B1C-F8FB-42ED-893C-59315C64D126Q36330205-16098644-78A0-462A-B008-EE1320788634Q38607421-BF2E8CDC-FA91-4703-8D11-A77523717452Q38970826-C85BFBFD-959F-4BD1-8D50-F72D17305D89Q39173310-1BD1E877-0AEA-4622-8A88-F8BBA25A79FDQ39786556-9875C04F-C0B8-4FDA-B3CD-1F2A10B4FDE6Q39986251-444D2651-DAFC-4C44-8A4A-D30596E0E28EQ40572337-F489C473-03BD-4F3B-A186-44FC5CF18346Q42230134-DBB37A78-C0A7-4BA3-ADDF-CFB979E7F48DQ42291670-E5DB02A5-FBC2-4648-B5BB-F0819BADD959Q43032090-15759A00-9699-4ABB-B266-21393E1D770EQ44714358-3ABDF7B6-FF1B-4AE6-BECB-7541B51CBFD0Q46643155-6F1C5BB4-372D-430F-BB5B-C8B5D9663D7CQ46911923-B3B6A81B-04A7-459B-A6F2-4022AF324D53Q47902999-6693B157-226B-4368-99E9-0140CC2C5D33Q47959649-F732A3D6-1E25-4A76-97A4-80F9E8449212Q52576952-314D42C9-EA2C-4473-A19E-B9B32CC38374Q52681407-D4C5E86F-83B0-4EA6-9CE4-932E23DD57B0Q55002069-85803613-D100-4CA8-9024-C4BDFA554BDDQ57135287-DA84F892-CCE2-48D9-8FB9-4B92402826F5Q57179728-D0CDFD49-8A74-475F-A360-AF898FDC093FQ59020358-9F7D7695-D233-4551-B412-9DE8276F5FB8Q60545110-57DDD200-C48B-4EEB-A4BD-58EE78133C32Q63850006-186E2198-C978-473E-BFE3-3CAE1EB124F3Q89290648-FADB6AEF-87BF-44EF-887E-9EF99FD42DDDQ92772962-53DF6B93-471B-4E18-AEBC-9E70CB08F7ABQ95936096-973EC953-64CE-408D-8974-0818B1460C9D
P50
description
hulumtues
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researcher
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wetenschapper
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հետազոտող
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name
Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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type
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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Steve Wakelin
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P1053
C-3170-2011
P106
P1153
7005793478
P21
P31
P3829
P496
0000-0002-1167-8699