SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308157834> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W4308157834 endingPage "108238" @default.
W4308157834 startingPage "108238" @default.
W4308157834 abstract "Fencing has been extensively used for the restoration of grassland degraded by human disturbance. However, its effects on ecosystem functions and services are still controversial. Here, we evaluated the response of ecosystem multifunctionality (EMF) to 7 years of grazing exclusion based on ten individual functions, and compared grazing exclusion with two common practices (mowing and grazing) in a typical steppe in Inner Mongolia. Plant and microbial diversity and three edaphic factors (soil pH, moisture and temperature) were also investigated to explore the main drivers regulating EMF. Compared with continuous grazing, fencing improved EMF mainly by increasing soil nutrient contents, including soil organic carbon, ammonium nitrogen, nitrate nitrogen and available phosphorus. No significant differences were found between fencing and mowing for all ten individual functions and EMF. Plant and fungal diversity were comparable between fencing and grazing, but were lower than under mowing, and bacterial diversity was similar between all three management practices. Soil pH, moisture and temperature were also affected by fencing. Structural equation modeling showed that EMF was mainly driven by soil moisture in the fencing and mowing plots, but by plant and bacterial diversity in the grazing plots. Our results suggest that relative to grazing, fencing and mowing are both feasible strategies to enhance EMF, and that mowing may be more conducive to biodiversity conservation. This study demonstrates that, maintenance of soil moisture is critical for the restoration of EMF in Inner Mongolia’s typical steppe. A conceptual framework of individuated ecosystem functions and EMF responses to grassland management regimes and how biodiversity and soil abiotic factors affect EMF in typical Chinese steppe ecosystems. • Contrast with grazing, fencing improved EMF mainly through enhancing soil nutrient contents. • Fencing and mowing had comparable EMF, but mowing was preferable for biodiversity conservation. • EMF was regulated by edaphic factors in fencing and Mowing, but by biotic factors in grazing. • Maintenance of soil moisture is critical for the restoration of EMF." @default.
W4308157834 created "2022-11-08" @default.
W4308157834 creator A5010981414 @default.
W4308157834 creator A5015195367 @default.
W4308157834 creator A5023856843 @default.
W4308157834 creator A5030835959 @default.
W4308157834 creator A5046881277 @default.
W4308157834 creator A5052274720 @default.
W4308157834 creator A5053339236 @default.
W4308157834 date "2023-02-01" @default.
W4308157834 modified "2023-09-27" @default.
W4308157834 title "Effects of fencing on near-term ecosystem multifunctionality in a typical steppe in Inner Mongolia" @default.
W4308157834 cites W1596936787 @default.
W4308157834 cites W1968378666 @default.
W4308157834 cites W1990370234 @default.
W4308157834 cites W2000986906 @default.
W4308157834 cites W2016037098 @default.
W4308157834 cites W2018630460 @default.
W4308157834 cites W2026321462 @default.
W4308157834 cites W2037811913 @default.
W4308157834 cites W2053340330 @default.
W4308157834 cites W2064775188 @default.
W4308157834 cites W2079019785 @default.
W4308157834 cites W2081284397 @default.
W4308157834 cites W2081492564 @default.
W4308157834 cites W2091545272 @default.
W4308157834 cites W2141329545 @default.
W4308157834 cites W2152643012 @default.
W4308157834 cites W2163143186 @default.
W4308157834 cites W2253902135 @default.
W4308157834 cites W2263248977 @default.
W4308157834 cites W2541282982 @default.
W4308157834 cites W2605879233 @default.
W4308157834 cites W2685040906 @default.
W4308157834 cites W2754577616 @default.
W4308157834 cites W2755548746 @default.
W4308157834 cites W2756448447 @default.
W4308157834 cites W2775500710 @default.
W4308157834 cites W2775762881 @default.
W4308157834 cites W2790058219 @default.
W4308157834 cites W2800665212 @default.
W4308157834 cites W2802450939 @default.
W4308157834 cites W2898059791 @default.
W4308157834 cites W2901403133 @default.
W4308157834 cites W2907546747 @default.
W4308157834 cites W2914233525 @default.
W4308157834 cites W2918410807 @default.
W4308157834 cites W2921130935 @default.
W4308157834 cites W2926255641 @default.
W4308157834 cites W2972500684 @default.
W4308157834 cites W2990613982 @default.
W4308157834 cites W2999190405 @default.
W4308157834 cites W3007103691 @default.
W4308157834 cites W3018587043 @default.
W4308157834 cites W3088727192 @default.
W4308157834 cites W3088948099 @default.
W4308157834 cites W3090778060 @default.
W4308157834 cites W3092579274 @default.
W4308157834 cites W3105481948 @default.
W4308157834 cites W3120626448 @default.
W4308157834 cites W3122569472 @default.
W4308157834 cites W3126429895 @default.
W4308157834 cites W3127695024 @default.
W4308157834 cites W3128443701 @default.
W4308157834 cites W3134261904 @default.
W4308157834 cites W3157071373 @default.
W4308157834 cites W3173311781 @default.
W4308157834 cites W3184973082 @default.
W4308157834 cites W3197387260 @default.
W4308157834 cites W3200881063 @default.
W4308157834 cites W3217324052 @default.
W4308157834 doi "https://doi.org/10.1016/j.agee.2022.108238" @default.
W4308157834 hasPublicationYear "2023" @default.
W4308157834 type Work @default.
W4308157834 citedByCount "2" @default.
W4308157834 countsByYear W43081578342023 @default.
W4308157834 crossrefType "journal-article" @default.
W4308157834 hasAuthorship W4308157834A5010981414 @default.
W4308157834 hasAuthorship W4308157834A5015195367 @default.
W4308157834 hasAuthorship W4308157834A5023856843 @default.
W4308157834 hasAuthorship W4308157834A5030835959 @default.
W4308157834 hasAuthorship W4308157834A5046881277 @default.
W4308157834 hasAuthorship W4308157834A5052274720 @default.
W4308157834 hasAuthorship W4308157834A5053339236 @default.
W4308157834 hasConcept C105895522 @default.
W4308157834 hasConcept C107826830 @default.
W4308157834 hasConcept C110872660 @default.
W4308157834 hasConcept C121332964 @default.
W4308157834 hasConcept C166957645 @default.
W4308157834 hasConcept C173608175 @default.
W4308157834 hasConcept C18903297 @default.
W4308157834 hasConcept C191935318 @default.
W4308157834 hasConcept C205649164 @default.
W4308157834 hasConcept C3017660400 @default.
W4308157834 hasConcept C39432304 @default.
W4308157834 hasConcept C41008148 @default.
W4308157834 hasConcept C48515440 @default.
W4308157834 hasConcept C54286561 @default.