SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1916877691> ?p ?o ?g. }

Showing items 1 to 100 of ±103 with 100 items per page.

W1916877691 endingPage "60" @default.
W1916877691 startingPage "49" @default.
W1916877691 abstract "Recent preoccupations regarding possible negative effects of pollution, inappropriate land management, climate change, desertification, erosion, compaction or over-exploitation on soils has led to initiatives for the survey of soils. One of them, EcoFINDERS, launched a pan-European survey in order to define normal operating ranges for soil biodiversity and quality, through the use of several methodologies. The objective of the current work was the characterization of European soils under different land uses and from representative bio-geographical locations, using a PLFA method developed in the context of the mentioned survey, in order to recognize and define operation ranges for soil PLFA. PLFA analysis demonstrated to be a valuable tool in the evaluation, comparison and distinction of several land uses and biogeographical (BG) zones. The analysis of the PLFA diversity with PCA and PERMANOVA/SIMPER demonstrated a good separation of soil samples relatively to each defined land use and BG zone. Soils of the same BG zone and land use group showed an average biomarker constitution with consistent differences of PLFA/biomarker compositions relatively to other groups, especially concerning land uses. Total PLFA biomass was consistently higher in non-arable environments, i.e., forest or grass soils. Arable soils contained a total PLFA biomass that was in average 2.5–2.9 times lower than grassland or forest soil. Arable and grassland soils contained significantly low relative quantities of the saprophytic Fungi biomarker 18:2ω6,9c (which decreased more than 18:1ω9c), and low Total Fungi biomarkers/Bacteria biomarkers ratio (TF/B). The opposite occurred in forestry soil samples, and the Boreal BG zone stood out, showing the highest total fungal composition, with a most important contribution of the 18:2ω6,9c saprophytic Fungi biomarker. Grasslands (all BG zones) showed to be the richest (3.5–3.8%) in Arbuscular Mycorrhizae Fungi biomarker, 16:1ω5c. High proportions of Gram-positive, relatively to Gram-negative biomarkers occurred essentially in arable soils, in this study, but also in Alpine grasslands, which main Gram-positive biomarkers were a15:0, and i15:0. Total biomass, PLFA Biomarker groups, and different balances between individual PLFA enabled the discrimination of samples originating from both different BG zones and land uses." @default.
W1916877691 created "2016-06-24" @default.
W1916877691 creator A5015109819 @default.
W1916877691 creator A5023227204 @default.
W1916877691 creator A5050031574 @default.
W1916877691 creator A5062835009 @default.
W1916877691 creator A5075363162 @default.
W1916877691 date "2016-01-01" @default.
W1916877691 modified "2023-10-16" @default.
W1916877691 title "European scale analysis of phospholipid fatty acid composition of soils to establish operating ranges" @default.
W1916877691 cites W1042937255 @default.
W1916877691 cites W1487313274 @default.
W1916877691 cites W1542687256 @default.
W1916877691 cites W1963837941 @default.
W1916877691 cites W1969411288 @default.
W1916877691 cites W2000121296 @default.
W1916877691 cites W2005517056 @default.
W1916877691 cites W2012004087 @default.
W1916877691 cites W2058040001 @default.
W1916877691 cites W2059075856 @default.
W1916877691 cites W2062299216 @default.
W1916877691 cites W2086084649 @default.
W1916877691 cites W2086557961 @default.
W1916877691 cites W2089167288 @default.
W1916877691 cites W2095589143 @default.
W1916877691 cites W2115201002 @default.
W1916877691 cites W2116598828 @default.
W1916877691 cites W2118082789 @default.
W1916877691 cites W2120475185 @default.
W1916877691 cites W2150290657 @default.
W1916877691 cites W2152311269 @default.
W1916877691 cites W2159308156 @default.
W1916877691 cites W2164695205 @default.
W1916877691 cites W2168543510 @default.
W1916877691 cites W2171592873 @default.
W1916877691 cites W2329301263 @default.
W1916877691 doi "https://doi.org/10.1016/j.apsoil.2015.09.001" @default.
W1916877691 hasPublicationYear "2016" @default.
W1916877691 type Work @default.
W1916877691 sameAs 1916877691 @default.
W1916877691 citedByCount "36" @default.
W1916877691 countsByYear W19168776912016 @default.
W1916877691 countsByYear W19168776912017 @default.
W1916877691 countsByYear W19168776912018 @default.
W1916877691 countsByYear W19168776912019 @default.
W1916877691 countsByYear W19168776912020 @default.
W1916877691 countsByYear W19168776912021 @default.
W1916877691 countsByYear W19168776912022 @default.
W1916877691 countsByYear W19168776912023 @default.
W1916877691 crossrefType "journal-article" @default.
W1916877691 hasAuthorship W1916877691A5015109819 @default.
W1916877691 hasAuthorship W1916877691A5023227204 @default.
W1916877691 hasAuthorship W1916877691A5050031574 @default.
W1916877691 hasAuthorship W1916877691A5062835009 @default.
W1916877691 hasAuthorship W1916877691A5075363162 @default.
W1916877691 hasConcept C115540264 @default.
W1916877691 hasConcept C118518473 @default.
W1916877691 hasConcept C159390177 @default.
W1916877691 hasConcept C159750122 @default.
W1916877691 hasConcept C166957645 @default.
W1916877691 hasConcept C18903297 @default.
W1916877691 hasConcept C205649164 @default.
W1916877691 hasConcept C2776475172 @default.
W1916877691 hasConcept C2779343474 @default.
W1916877691 hasConcept C39432304 @default.
W1916877691 hasConcept C50516716 @default.
W1916877691 hasConcept C6557445 @default.
W1916877691 hasConcept C71762439 @default.
W1916877691 hasConcept C86803240 @default.
W1916877691 hasConceptScore W1916877691C115540264 @default.
W1916877691 hasConceptScore W1916877691C118518473 @default.
W1916877691 hasConceptScore W1916877691C159390177 @default.
W1916877691 hasConceptScore W1916877691C159750122 @default.
W1916877691 hasConceptScore W1916877691C166957645 @default.
W1916877691 hasConceptScore W1916877691C18903297 @default.
W1916877691 hasConceptScore W1916877691C205649164 @default.
W1916877691 hasConceptScore W1916877691C2776475172 @default.
W1916877691 hasConceptScore W1916877691C2779343474 @default.
W1916877691 hasConceptScore W1916877691C39432304 @default.
W1916877691 hasConceptScore W1916877691C50516716 @default.
W1916877691 hasConceptScore W1916877691C6557445 @default.
W1916877691 hasConceptScore W1916877691C71762439 @default.
W1916877691 hasConceptScore W1916877691C86803240 @default.
W1916877691 hasLocation W19168776911 @default.
W1916877691 hasOpenAccess W1916877691 @default.
W1916877691 hasPrimaryLocation W19168776911 @default.
W1916877691 hasRelatedWork W2013194524 @default.
W1916877691 hasRelatedWork W2023959078 @default.
W1916877691 hasRelatedWork W2031900686 @default.
W1916877691 hasRelatedWork W2277665703 @default.
W1916877691 hasRelatedWork W2296360205 @default.
W1916877691 hasRelatedWork W2756255229 @default.
W1916877691 hasRelatedWork W2793572154 @default.
W1916877691 hasRelatedWork W3034592515 @default.
W1916877691 hasRelatedWork W3091839349 @default.
W1916877691 hasRelatedWork W3215452980 @default.
W1916877691 hasVolume "97" @default.
W1916877691 isParatext "false" @default.