Soil organic carbon turnover recovers faster than plant diversity in the grassland when high nitrogen addition is ceased: Derived from soil 14C evidences

[1]  Xiran Li,et al.  Clarifying the response of soil organic carbon storage to increasing temperature through minimizing the precipitation effect , 2020 .

[2]  G. Ding,et al.  Stabilization of atmospheric nitrogen deposition in China over the past decade , 2019, Nature Geoscience.

[3]  Filippo Bussotti,et al.  Responses of forest ecosystems in Europe to decreasing nitrogen deposition. , 2019, Environmental pollution.

[4]  S. Frey,et al.  Decreased atmospheric nitrogen deposition in eastern North America: Predicted responses of forest ecosystems. , 2019, Environmental pollution.

[5]  Xuejun Liu,et al.  Responses of soil organic carbon turnover to nitrogen deposition are associated with nitrogen input rates: Derived from soil 14C evidences. , 2018, Environmental pollution.

[6]  Fusuo Zhang,et al.  Cumulative and partially recoverable impacts of nitrogen addition on a temperate steppe. , 2018, Ecological applications : a publication of the Ecological Society of America.

[7]  B. Zhu,et al.  Physico-chemical protection, rather than biochemical composition, governs the responses of soil organic carbon decomposition to nitrogen addition in a temperate agroecosystem. , 2017, The Science of the total environment.

[8]  I. Kögel‐Knabner,et al.  Anthropogenic N deposition increases soil organic matter accumulation without altering its biochemical composition , 2017, Global change biology.

[9]  C. Stevens How long do ecosystems take to recover from atmospheric nitrogen deposition , 2016 .

[10]  M. Crawley,et al.  Grassland biodiversity bounces back from long-term nitrogen addition , 2015, Nature.

[11]  I. Schöning,et al.  Controls on soil carbon storage and turnover in German landscapes , 2014, Biogeochemistry.

[12]  S. Polasky,et al.  Low biodiversity state persists two decades after cessation of nutrient enrichment. , 2013, Ecology letters.

[13]  C. Stevens,et al.  Differences in yield, Ellenberg N value, tissue chemistry and soil chemistry 15 years after the cessation of nitrogen addition , 2012, Plant and Soil.

[14]  S. Trumbore Radiocarbon and Soil Carbon Dynamics , 2009 .

[15]  J. Galloway,et al.  Transformation of the Nitrogen Cycle: Recent Trends, Questions, and Potential Solutions , 2008, Science.

[16]  David Tilman,et al.  Loss of plant species after chronic low-level nitrogen deposition to prairie grasslands , 2008, Nature.

[17]  Lynne Boddy,et al.  Living in a fungal world: impact of fungi on soil bacterial niche development. , 2005, FEMS microbiology reviews.

[18]  Yiqi Luo,et al.  Acclimatization of soil respiration to warming in a tall grass prairie , 2001, Nature.

[19]  Ronald Amundson,et al.  The Carbon Budget in Soils , 2001 .

[20]  V. Brovkin,et al.  Dynamics of radiocarbon in soils. , 1993 .

[21]  John F. Muratore,et al.  Nitrogen and Lignin Control of Hardwood Leaf Litter Decomposition Dynamics , 1982 .