Resultados de búsqueda - EHESS~

Feeding efficiency gains can increase the greenhouse gas mitigation potential of the Tanzanian dairy sector por Hawkins, J.A., Yesuf, G., Zijlstra, M., Schoneveld, George C., Rufino, Mariana C.

“…We calculated direct non-CO2 emissions from dairy production and the CO2 emissions resulting from the demand for croplands and grasslands using a land footprint indicator. …”
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Zero, one, or in between: Evaluation of alternative national and entity-level accounting for bioenergy por Bird, D.N., Pena, N., Zanchi, G.

“…Accounting for bioenergy's carbon dioxide (CO2) emissions, as done under the Kyoto Protocol (KP) and European Union (EU) Emissions Trading Scheme, fails to capture the full extent of these emissions. …”
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National contributions to climate change mitigation from agriculture: allocating a global target por Richards, Meryl B., Wollenberg, Eva Karoline, Vuuren, Detlef P. van

“…Allocating mitigation targets according to responsibility for total historical emissions or capability to mitigate assigned large targets for agricultural emission reductions to North America, Europe and China. …”
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Resilience and Economic Growth in Arid Lands - Accelerated Growth in Kenya: Mitigation co-benefits of herd size and feed quality management por Nash, Julie, Grewer, Uwe, Bockel, Louis, Galford, Gillian L.

“…The agricultural development project Resilience and Economic Growth in Arid Lands – Accelerated Growth (REGAL-AG) has promoted improved livestock management that resulted in a decrease in net emissions of 10%. Since emissions from livestock account for the majority of Kenya’s agricultural emissions (95%), reduction of emissions in the livestock sector has high potential impact. …”
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A framework for assessing the effects of shock events on livestock and environment in sub-Saharan Africa: The COVID-19 pandemic in northern Kenya por Graham, Michael, Chelanga, Philemon, Jensen, Nathaniel D., Leitner, Sonja, Fava, Francesco P., Merbold, Lutz

“…CONTEXT: Livestock are the primary source of greenhouse gas (GHG) emissions from agriculture in most African countries, but there is a paucity of baseline data and monitoring of GHG emissions from livestock in Africa, particularly for extreme or shock events. …”
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Carbon Footprint Assessment and Mitigation Options of Dairy under Chinese Conditions por Dong, Hongmin

“…Greenhouse gases (GHG) emission from livestock research 7.52 billion tons CO2-eq per year, accounting for 50% of agricultural emissions and 18% of global anthropogenic GHG emissions (FAO, 2014), making it become an important source of GHG emissions. …”
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How Does Agriculture Change Our Climate? por Colombo, B., West P, Smith, Pete, Tubiello, F.N., Gerber J, Engstrom P, Urevig A, Wollenberg, Eva Karoline

“…Greenhouse gas emissions from agriculture reached an all-time high in 2014, and for the first time since 1960 may now outpace fossil fuel growth. …”
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ACCESO in Honduras: Mitigation co-benefits of perennial crop expansion, soil management, and livestock improvements por Nash, Julie, Grewer, Uwe, Bockel, Louis, Galford, Gillian L., Pirolli, Gillian, White, Julianna M.

“…The agricultural development project ACCESO reduced greenhouse gas emissions (GHG) and led to net carbon sequestration due to perennial crop expansion…”
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Restriktioner av växthusgasemissioner por Andersson, Emma, Wall, Anna

“…The agricultural sector accounts for about 13 percent of the total load of greenhouse gas emissions from Sweden (Swedish Environmental Protection Agency, 2007). …”
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Challenges and Opportunities of Low-Carbon Rice Production Systems in Bangladesh por Ahmed, Sharif, Bhandari, Humnath, Kumar, Virender

“…Rice covers 11% of the world's arable land and is responsible for approximately 1.5% of global anthropogenic GHG emissions and around 10-12% of total agricultural emissions. …”
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Bokashi por Hillberg, Kajsa

“…EM Bokashi is a fermentative treatment used for kitchen waste, branded as a climate friendly alternative to compost with low or no greenhouse gas (GHG) emissions. This study aims to examine if these claims are true. …”
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Kalkningens påverkan på växthusgasemissioner från odlad torvjord por Jörblad, Lisa

“…Cultivated peat soils do therefore contribute to the global warming by emissions of CO2 and N2O. The aim of this experiment was to test the effect on emissions from cultivated peat soils caused by drainage and liming. …”

Managing biodiversity in agricultural ecosystems [Arabic version]: إدارة التنوع الحيوي في النظم البيئية الزراعية por Jarvis, Devra I., Padoch, Christine, Cooper, H.D., Bioversity International

“…(Abstract © Columbia University Press / New York)…”
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Managing biodiversity in agricultural ecosystems por Jarvis, Devra I., Padoch, Christine, Cooper, H.D.

“…(Abstract © Columbia University Press / New York)…”
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Trends in US agricultural since 2000 and implications for the next twenty years por Glauber, Joseph W., Smith, Vincent H.

“…These levels of spending have been criticised as excessive relative to actual losses and likely caused the United States to violate its WTO domestic support commitments. …”
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The Climate-Smart Villages – CSV of Santa Rita as a local innovation platform for scaling ecosystem- based adaptation in Honduras por Martinez Salgado, Jesus David, Borrayo, Andrea Surama, Cindy, Gómez, Castellanos, Andrea, Martinez Baron, Deissy

“…This approach seeks to strengthen communities’ capacity to reduce their climate vulnerability by increasing their knowledge and adopting informed and sustainable measures related to soil conservation and management, water, biodiversity, the use of local agro-climatic information, emission reduction measures, and adaptation plans contextualized to the specific needs of families and communities through a participatory and inclusive process.…”
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Vätgasens möjligheter inom lantbruket por Berggren, Simon, Kragge, Elin, Larsson, Julia, Liljeroth, Saga, Löchting Thunberg, Caroline, Norle, Simon, Nyström, Terése, Ullén, Marcus

“…The total cost for this system is calculated to be 16,48 - 26,06 MSEK depending on the choice of fueling station and the amount of solar panels installed. The greenhouse gas emissions from the farm are expected to decrease with 60 % when one hybrid tractor is used and 92 % when two hybrid tractors are used instead of the tractors powered by HVO100.…”

Analyzing the greenhouse gas impact potential of smallholder development actions across a global food security program por Grewer, Uwe, Nash, Julie, Gurwick, Noel, Bockel, Louis, Galford, Gillian L., Richards, Meryl B., Costa, Ciniro, White, Julianna M., Pirolli, Gillian, Wollenberg, Eva Karoline

“…Investments in both production and post-harvest stages meaningfully reduced GHG emission intensity, contributing to low emission development. …”
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Varietal effects on methane intensity of paddy fields under different irrigation management por Asch, F., Johnson, K., Vo, T. B. T., Sander, B.O., Duong, V.N., Wassmann, R.

“…However, AWD can only be implemented under full control of irrigation water, leaving the rainy seasons with little scope to reduce methane emissions from paddy fields. Employing low‐emitting varieties during the rainy season may be an option to reduce methane emissions but may compromise farmers’ income if such varieties perform less well than the current standard. …”
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Analysis of the potential of sustainable forest-based bioenergy for climate change mitigation por Bird, D.N., Zanchi. G., Pena, N., Havlík, Petr, Fieden, D.

“…It starts from an existing estimate from Havlík et al. (2011) and: Adds the emissions from changes in dead wood, litter and soil organic carbon (DWLSOC); Includes a sensitivity analysis; Investigates different options for carbon accounting; and Investigates the timing of emissions from biofuels. …”
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