Soil management practices can contribute to net carbon neutrality in California | Semantic Scholar (2024)

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@article{DiVittorio2024SoilMP, title={Soil management practices can contribute to net carbon neutrality in California}, author={Alan V. Di Vittorio and Maegen B Simmonds and Andrew D. Jones and Whendee L. Silver and Benjamin Houlton and Margaret S. Torn and Maya Almaraz and Peter S. Nico}, journal={Environmental Research Letters}, year={2024}, volume={19}, url={https://api.semanticscholar.org/CorpusID:269826622}}
  • A. D. Di Vittorio, M. Simmonds, Peter S. Nico
  • Published in Environmental Research… 14 May 2024
  • Environmental Science

Stabilizing climate requires reducing greenhouse gas (GHG) emissions and storing atmospheric carbon dioxide (CO2) in land or ocean systems. Soil management practices can reduce GHG emissions or sequester atmospheric CO2 into inorganic and organic forms. However, whether soil carbon strategies represent a viable and impactful climate mitigation pathway is uncertain. A specific question concerns the role that land-management practices and soil amendments can play in realizing California’s…

45 References

The climate change mitigation potential of annual grasslands under future climates.
    A. MayerW. Silver

    Environmental Science

    Ecological applications : a publication of the…

  • 2022

Composted manure and green waste amendments have been shown to increase net carbon (C) sequestration in rangeland soils and have been proposed as a means to help lower atmospheric CO2 concentrations.

Long-term climate change mitigation potential with organic matter management on grasslands.
    R. RyalsM. HartmanW. PartonM. DeLongeW. Silver

    Environmental Science

    Ecological applications : a publication of the…

  • 2015

It is suggested that compost additions to grassland soils can have a long-term impact on C and greenhouse gas dynamics that contributes to climate change mitigation.

  • 77
  • Highly Influential
  • PDF
Effects of organic matter amendments on net primary productivity and greenhouse gas emissions in annual grasslands.
    R. RyalsW. Silver

    Environmental Science

    Ecological applications : a publication of the…

  • 2013

It is concluded that a single application of composted organic matter can significantly increase grassland C storage, and that effects of a one application are likely to carry over in time.

  • 130
  • PDF
Deep soil inventories reveal that impacts of cover crops and compost on soil carbon sequestration differ in surface and subsurface soils
    N. TautgesJessica L. ChiartasA. GaudinA. O’GeenI. HerreraK. Scow

    Environmental Science, Agricultural and Food Sciences

    Global change biology

  • 2019

A long-term trial in California's Mediterranean climate revealed impacts of management on SOC in maize-tomato and wheat-fallow cropping systems and ignored the subsoil carbon dynamics in deeper layers of soil fails to recognize potential opportunities for soil C sequestration, and may lead to false conclusions about the impact of management practices onC sequestration.

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The potential of agricultural land management to contribute to lower global surface temperatures
    A. MayerZ. HausfatherAndrew D. JonesW. Silver

    Environmental Science, Agricultural and Food Sciences

    Science Advances

  • 2018

It is shown that sequestration of 0.68 Pg C year−1 for 85 years could lower global temperature by 0.1°C in 2100 when combined with a low emission trajectory [Representative Concentration Pathway (RCP) 2.6].

  • 38
  • Highly Influential
  • PDF
Ecosystem management and land conservation can substantially contribute to California’s climate mitigation goals
    D. CameronDavid C MarvinJonathan M. RemucalMichelle C Passero

    Environmental Science

    Proceedings of the National Academy of Sciences

  • 2017

This study provides a flexible, dynamic framework for estimating the reductions achievable through land conservation, ecological restoration, and changes in management regimes for a jurisdiction with an emissions reduction target.

  • 49
  • Highly Influential
  • PDF
Natural climate solutions for the United States
    J. FargioneS. Bassett B. Griscom

    Environmental Science

    Science Advances

  • 2018

The potential of natural climate solutions (NCS) to increase carbon storage and avoid greenhouse gas emissions in the United States is quantified and it is found that at current carbon market prices, 299 Tg CO2e year−1 could be achieved.

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  • Highly Influential
  • PDF
Impacts of California’s climate-relevant land use policy scenarios on terrestrial carbon emissions (CO2 and CH4) and wildfire risk
    M. SimmondsA. D. Di VittorioClaire M. JahnsE. JohnstonA. JonesP. Nico

    Environmental Science

  • 2020

Land-use and -cover change (LUCC) is globally important to climate change mitigation. However, using land-based strategies to support aggressive subnational greenhouse gas emissions reduction targets

  • 19
  • Highly Influential
  • PDF
Natural climate solutions for Canada
    C. DreverS. Cook-Patton W. Kurz

    Environmental Science

    Science Advances

  • 2021

The mitigation identified here represents an important potential contribution to the Paris Agreement, such that NCS combined with existing mitigation plans could help Canada to meet or exceed its climate goals.

  • 95
  • Highly Influential
  • PDF
The relationship between carbon input, aggregation, and soil organic carbon stabilization in sustainable cropping systems
    A. KongJ. SixDennis C. BryantR. DenisonC. van Kessel

    Agricultural and Food Sciences, Environmental Science

  • 2005

One of our current challenges is to quantify the mechanisms, capacity, and longevity of C stabilization in agricultural lands. The objectives of this study were to evaluate the long-term (10 yr) role

  • 668
  • PDF

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