SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200548045> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W4200548045 endingPage "e01960" @default.
W4200548045 startingPage "e01960" @default.
W4200548045 abstract "Human-induced disturbances to ecosystems cause a direct loss of biodiversity, and also alter the inherent processes that shape ecosystems even after the main disturbance has ceased. Therefore, is it important to understand the ongoing consequences of past and present land use practices on both above- and belowground components of agroecosystems. Our study takes a detailed investigation of what shapes communities in semi-natural grasslands under long-term management as either pastures or meadows. We investigated the relative importance of land use (land management (LM) and land use intensity (LUI)) and abiotic conditions (soil, topographic, climatic) across five grassland sites in central Germany in explaining species occurrence patterns of vascular plants and soil fungi. Analyses included a hierarchical joint-species distribution modeling approach to uncover the role of possible drivers shaping the local communities. Our results show that abiotic factors are of particularly high importance compared to LM and LUI for both vascular plant and soil fungal communities. In general, the relative importance of explanatory variables was similar across both taxon groups, however, for plant communities, local climate conditions were more important, while for fungal communities the soil variables (e.g., soil acidity and fertility including soil carbon and potassium concentrations) played a more prominent role. Species-specific responses to the respective variables showed some similarity across the taxon groups, however less so than expected given the long legacy of past LM. Here we found that approximately 50% of the plant and fungi species had clear LM preferences and responses to LUI. More plant species were positively related to pasture than meadow management, while the opposite was found for fungal species. Our findings advance the understanding of how abiotic conditions and human land use impact local species communities in managed semi-natural grasslands, aiding further research and policy development for conserving multitrophic diversity within these biodiversity rich habitats. Our results highlight the importance of controlling for soil and climate in studying the impact of land use, and of considering the environmental context at both small and larger spatial grains when making land management and biodiversity conservation decisions. In so doing, the complexity of ecological processes within managed systems are accounted for and prioritized, promoting both conservation and ecological functioning of the agroecosystem. Plant data is archived on PANGAEA (Kautzner, Auge, Roscher, Baessler & Slabbert, 2020; https://doi.org10.1594/PANGA EA.919343) and the soil microbial data on the National Center for Biotechnology Information (NCBI) Sequence Read Archive (SRA) under the accession PRJNA563995 (Kautzner, Baessler, Auge, Roscher & Wubet, 2020)" @default.
W4200548045 created "2021-12-31" @default.
W4200548045 creator A5001730160 @default.
W4200548045 creator A5015261947 @default.
W4200548045 creator A5021732706 @default.
W4200548045 creator A5033650287 @default.
W4200548045 creator A5055832161 @default.
W4200548045 creator A5058736448 @default.
W4200548045 creator A5062792733 @default.
W4200548045 creator A5077341442 @default.
W4200548045 date "2022-01-01" @default.
W4200548045 modified "2023-10-06" @default.
W4200548045 title "Abiotic factors are more important than land management and biotic interactions in shaping vascular plant and soil fungal communities" @default.
W4200548045 cites W1570096298 @default.
W4200548045 cites W1896270614 @default.
W4200548045 cites W1968764937 @default.
W4200548045 cites W1974831314 @default.
W4200548045 cites W1977318300 @default.
W4200548045 cites W1982030391 @default.
W4200548045 cites W1985487144 @default.
W4200548045 cites W1986678623 @default.
W4200548045 cites W1993072219 @default.
W4200548045 cites W2008412978 @default.
W4200548045 cites W2013512178 @default.
W4200548045 cites W2021986346 @default.
W4200548045 cites W2025132004 @default.
W4200548045 cites W2032075694 @default.
W4200548045 cites W2039169779 @default.
W4200548045 cites W2039183641 @default.
W4200548045 cites W2039205520 @default.
W4200548045 cites W2052757363 @default.
W4200548045 cites W2069968522 @default.
W4200548045 cites W2086373815 @default.
W4200548045 cites W2098490582 @default.
W4200548045 cites W2106446186 @default.
W4200548045 cites W2106875795 @default.
W4200548045 cites W2109110024 @default.
W4200548045 cites W2118269781 @default.
W4200548045 cites W2124469214 @default.
W4200548045 cites W2127252827 @default.
W4200548045 cites W2140575676 @default.
W4200548045 cites W2160947363 @default.
W4200548045 cites W2166152751 @default.
W4200548045 cites W2167518054 @default.
W4200548045 cites W2167800115 @default.
W4200548045 cites W2169632779 @default.
W4200548045 cites W2172160767 @default.
W4200548045 cites W2253095119 @default.
W4200548045 cites W2280390181 @default.
W4200548045 cites W2305949841 @default.
W4200548045 cites W2480249431 @default.
W4200548045 cites W2510136745 @default.
W4200548045 cites W2558519551 @default.
W4200548045 cites W2606837598 @default.
W4200548045 cites W2983868970 @default.
W4200548045 cites W3014486333 @default.
W4200548045 cites W3014926881 @default.
W4200548045 cites W3035847371 @default.
W4200548045 cites W3049232269 @default.
W4200548045 cites W3082785973 @default.
W4200548045 cites W3083133301 @default.
W4200548045 cites W3109184365 @default.
W4200548045 doi "https://doi.org/10.1016/j.gecco.2021.e01960" @default.
W4200548045 hasPublicationYear "2022" @default.
W4200548045 type Work @default.
W4200548045 citedByCount "2" @default.
W4200548045 countsByYear W42005480452023 @default.
W4200548045 crossrefType "journal-article" @default.
W4200548045 hasAuthorship W4200548045A5001730160 @default.
W4200548045 hasAuthorship W4200548045A5015261947 @default.
W4200548045 hasAuthorship W4200548045A5021732706 @default.
W4200548045 hasAuthorship W4200548045A5033650287 @default.
W4200548045 hasAuthorship W4200548045A5055832161 @default.
W4200548045 hasAuthorship W4200548045A5058736448 @default.
W4200548045 hasAuthorship W4200548045A5062792733 @default.
W4200548045 hasAuthorship W4200548045A5077341442 @default.
W4200548045 hasBestOaLocation W42005480451 @default.
W4200548045 hasConcept C110872660 @default.
W4200548045 hasConcept C130217890 @default.
W4200548045 hasConcept C132215390 @default.
W4200548045 hasConcept C143590824 @default.
W4200548045 hasConcept C151730666 @default.
W4200548045 hasConcept C159750122 @default.
W4200548045 hasConcept C18903297 @default.
W4200548045 hasConcept C205649164 @default.
W4200548045 hasConcept C2775835988 @default.
W4200548045 hasConcept C2777601987 @default.
W4200548045 hasConcept C2777707638 @default.
W4200548045 hasConcept C38774213 @default.
W4200548045 hasConcept C4792198 @default.
W4200548045 hasConcept C53002841 @default.
W4200548045 hasConcept C53565203 @default.
W4200548045 hasConcept C71640776 @default.
W4200548045 hasConcept C86803240 @default.
W4200548045 hasConceptScore W4200548045C110872660 @default.
W4200548045 hasConceptScore W4200548045C130217890 @default.
W4200548045 hasConceptScore W4200548045C132215390 @default.
W4200548045 hasConceptScore W4200548045C143590824 @default.