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Journal Abstract Search

235 related items for PubMed ID: 37246246

  • 1. Deepened snow cover increases grassland soil carbon stocks by incorporating carbon inputs into deep soil layers.
    Deng M, Li P, Liu W, Chang P, Yang L, Wang Z, Wang J, Liu L.
    Glob Chang Biol; 2023 Aug; 29(16):4686-4696. PubMed ID: 37246246
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  • 6. Depth-dependent drivers of soil aggregate carbon across Tibetan alpine grasslands.
    Pan J, Shi J, Tian D, Zhang R, Li Y, He Y, Song L, Wang S, He Y, Yang J, Wei C, Niu S, Wang J.
    Sci Total Environ; 2023 Apr 01; 867():161428. PubMed ID: 36623644
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  • 8. More sensitive microbial responses to the interactive effects of warming and altered precipitation in subsoil than topsoil of an alpine grassland ecosystem.
    Qi Q, Ning S, Guo X, Zhao J, Tian R, Gui H, He JS, Wang H, Zhang Z, Konstantinidis KT, Gao Q, Wang Y, Li S, Zhao W, Yang Y, Zhou J.
    Glob Chang Biol; 2024 Sep 01; 30(9):e17487. PubMed ID: 39254230
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  • 9. Stabilization of organic carbon in top- and subsoil by biochar application into calcareous farmland.
    Wang Y, Yin Y, Joseph S, Flury M, Wang X, Tahery S, Li B, Shang J.
    Sci Total Environ; 2024 Jan 10; 907():168046. PubMed ID: 37890636
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  • 10. Perennial Crops Can Compensate for Low Soil Carbon Inputs from Maize in Ley-Arable Systems.
    Poyda A, Levin KS, Hülsbergen KJ, Auerswald K.
    Plants (Basel); 2022 Dec 21; 12(1):. PubMed ID: 36616157
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  • 11. Contrasting Biogeographic Patterns of Bacterial and Archaeal Diversity in the Top- and Subsoils of Temperate Grasslands.
    Liu N, Hu H, Ma W, Deng Y, Liu Y, Hao B, Zhang X, Dimitrov D, Feng X, Wang Z.
    mSystems; 2019 Oct 01; 4(5):. PubMed ID: 31575667
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  • 12. Plants alter their aboveground and belowground biomass allocation and affect community-level resistance in response to snow cover change in Central Asia, Northwest China.
    Zhang A, Yin J, Zhang Y, Wang R, Zhou X, Guo H.
    Sci Total Environ; 2023 Dec 01; 902():166059. PubMed ID: 37543343
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  • 13. Grazing enhances belowground carbon allocation, microbial biomass, and soil carbon in a subtropical grassland.
    Wilson CH, Strickland MS, Hutchings JA, Bianchi TS, Flory SL.
    Glob Chang Biol; 2018 Jul 01; 24(7):2997-3009. PubMed ID: 29377461
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  • 14. The spatio-temporal patterns of the topsoil organic carbon density and its influencing factors based on different estimation models in the grassland of Qinghai-Tibet Plateau.
    Liu S, Sun Y, Dong Y, Zhao H, Dong S, Zhao S, Beazley R.
    PLoS One; 2019 Jul 01; 14(12):e0225952. PubMed ID: 31805113
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  • 15. Nitrogen addition increases topsoil carbon stock in an alpine meadow of the Qinghai-Tibet Plateau.
    Liu J, Zhan W, Huang X, Tang D, Jin S, Zhu D, Chen H.
    Sci Total Environ; 2023 Aug 25; 888():164071. PubMed ID: 37196947
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  • 16. The changes in plant and soil C pools and their C:N stoichiometry control grassland N retention under elevated N inputs.
    Yang S, Liu W, Guo L, Wang C, Deng M, Peng Z, Liu L.
    Ecol Appl; 2022 Mar 25; 32(2):e2517. PubMed ID: 34918838
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  • 17. Pedogenic controls of soil organic carbon stocks and stability beneath montane Norway spruce forests along a precipitation gradient.
    Bösch RM, Laux M, Wenzel WW.
    Heliyon; 2023 Nov 25; 9(11):e21284. PubMed ID: 37954342
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  • 18. Grassland soil carbon sequestration: Current understanding, challenges, and solutions.
    Bai Y, Cotrufo MF.
    Science; 2022 Aug 05; 377(6606):603-608. PubMed ID: 35926033
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  • 19. The effect of mixed forest identity on soil carbon stocks in Pinus massoniana mixed forests.
    Tang F, Zhou Y, Bai Y.
    Sci Total Environ; 2024 Jan 10; 907():167889. PubMed ID: 37852480
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  • 20. Divergent contribution of particulate and mineral-associated organic matter to soil carbon in grassland.
    Liao J, Yang X, Dou Y, Wang B, Xue Z, Sun H, Yang Y, An S.
    J Environ Manage; 2023 Oct 15; 344():118536. PubMed ID: 37392693
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