Long-term crop rotation and tillage effects on soil greenhouse gas emissions and crop production in Illinois, USA

Low-Carbon Russia: Prospects after the Crisis

Voprosy Ekonomiki ◽

10.32609/0042-8736-2009-10-107-120 ◽

2009 ◽

pp. 107-120 ◽

Cited By ~ 3

Author(s):

I. Bashmakov

Keyword(s):

Economic Growth ◽

Potential Energy ◽

Greenhouse Gas Emissions ◽

Greenhouse Gas ◽

Low Carbon ◽

Modeling Tools ◽

Gas Emissions ◽

Scenario Approach

On the eve of the worldwide negotiations of a new climate agreement in December 2009 in Copenhagen it is important to clearly understand what Russia can do to mitigate energy-related greenhouse gas emissions in the medium (until 2020) and in the long term (until 2050). The paper investigates this issue using modeling tools and scenario approach. It concludes that transition to the "Low-Carbon Russia" scenarios must be accomplished in 2020—2030 or sooner, not only to mitigate emissions, but to block potential energy shortages and its costliness which can hinder economic growth.

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Long-term greenhouse gas emissions from hydroelectric reservoirs in tropical forest regions

Global Biogeochemical Cycles ◽

10.1029/1998gb900015 ◽

1999 ◽

Vol 13 (2) ◽

pp. 503-517 ◽

Cited By ~ 81

Author(s):

Corinne Galy-Lacaux ◽

Robert Delmas ◽

Georges Kouadio ◽

Sandrine Richard ◽

Philippe Gosse

Keyword(s):

Tropical Forest ◽

Greenhouse Gas Emissions ◽

Greenhouse Gas ◽

Gas Emissions ◽

Hydroelectric Reservoirs ◽

Forest Regions

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Verification of greenhouse gas emission reductions: the prospect of atmospheric monitoring in polluted areas

Philosophical Transactions of The Royal Society A Mathematical Physical and Engineering Sciences ◽

10.1098/rsta.2010.0249 ◽

2011 ◽

Vol 369 (1943) ◽

pp. 1906-1924 ◽

Cited By ~ 40

Author(s):

Ingeborg Levin ◽

Samuel Hammer ◽

Elke Eichelmann ◽

Felix R. Vogel

Keyword(s):

Greenhouse Gas Emissions ◽

Greenhouse Gas ◽

Catchment Area ◽

Greenhouse Gas Emission ◽

Atmospheric Transport ◽

Atmospheric Measurements ◽

Transport Modelling ◽

Gas Emissions ◽

Atmospheric Transport Modelling

Independent verification of greenhouse gas emissions reporting is a legal requirement of the Kyoto Protocol, which has not yet been fully accomplished. Here, we show that dedicated long-term atmospheric measurements of greenhouse gases, such as carbon dioxide (CO 2 ) and methane (CH 4 ), continuously conducted at polluted sites can provide the necessary tool for this undertaking. From our measurements at the semi-polluted Heidelberg site in the upper Rhine Valley, we find that in the catchment area CH 4 emissions decreased on average by 32±6% from the second half of the 1990s until the first half of the 2000s, but the observed long-term trend of emissions is considerably smaller than that previously reported for southwest Germany. In contrast, regional fossil fuel CO 2 levels, estimated from high-precision 14 CO 2 observations, do not show any significant decreasing trend since 1986, in agreement with the reported emissions for this region. In order to provide accurate verification, these regional measurements would best be accompanied by adequate atmospheric transport modelling as required to precisely determine the relevant catchment area of the measurements. Furthermore, reliable reconciliation of reported emissions will only be possible if these are known at high spatial resolution in the catchment area of the observations. This information should principally be available in all countries that regularly report their greenhouse gas emissions to the United Nations Framework Convention on Climate Change.

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CURRENT STATE AND PROSPECTS OF CARBON FARMING DEVELOPMENT IN THE REPUBLIC OF TATARSTAN

Vestnik of Kazan state agrarin university ◽

10.12737/2073-0462-2021-7-13 ◽

2021 ◽

Vol 16 (3) ◽

pp. 7-13

Author(s):

Radik Safin ◽

Ayrat Valiev ◽

Valeriya Kolesar

Keyword(s):

Greenhouse Gases ◽

Greenhouse Gas Emissions ◽

Greenhouse Gas ◽

Carbon Footprint ◽

Crop Production ◽

Agricultural Soils ◽

Negative Impact ◽

Animal Husbandry ◽

Gas Emissions ◽

The Republic

Global climatic changes have a negative impact on the development of all sectors of the economy, including agriculture. However, the very production of agricultural products is one of the most important sources of greenhouse gases entering the atmosphere. Taking into account the need to reduce the “carbon footprint” in food production, a special place is occupied by the analysis of the volume of greenhouse gas emissions and the development of measures for their sequestration in agriculture. One of the main directions for reducing emissions and immobilizing greenhouse gases is the development of special techniques for their sequestration in the soil, including those used in agriculture. Adaptation of existing farming systems for this task will significantly reduce the “carbon footprint” from agricultural production, including animal husbandry. The development of carbon farming allows not only to reduce greenhouse gas emissions, but also to significantly increase the level of soil fertility, primarily by increasing the content of organic matter in them. As a result, it becomes possible, along with the production of crop production, to produce “carbon units” that are sold on local and international markets. The paper analyzes possible greenhouse gas emissions from agriculture and the potential for their sequestration in agricultural soils. The role of various elements of the farming system in solving the problem of reducing the “carbon footprint” is considered and ways of developing carbon farming in the Republic of Tatarstan are proposed

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Lowering soil greenhouse gas emissions without sacrificing yields by increasing crop rotation diversity in the North China Plain

Field Crops Research ◽

10.1016/j.fcr.2021.108366 ◽

2022 ◽

Vol 276 ◽

pp. 108366

Author(s):

He Xiao ◽

Harold M. van Es ◽

Joseph P. Amsili ◽

Qianqian Shi ◽

Jingbo Sun ◽

...

Keyword(s):

Greenhouse Gas Emissions ◽

Greenhouse Gas ◽

Crop Rotation ◽

North China Plain ◽

North China ◽

Gas Emissions ◽

The North ◽

The North China Plain

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Simulating Long-Term Development of Greenhouse Gas Emissions, Plant Biomass, and Soil Moisture of a Temperate Grassland Ecosystem under Elevated Atmospheric CO2

Agronomy ◽

10.3390/agronomy10010050 ◽

2019 ◽

Vol 10 (1) ◽

pp. 50

Author(s):

Ralf Liebermann ◽

Lutz Breuer ◽

Tobias Houska ◽

David Kraus ◽

Gerald Moser ◽

...

Keyword(s):

Soil Moisture ◽

Greenhouse Gas Emissions ◽

Greenhouse Gas ◽

Elevated Co2 ◽

Biomass Production ◽

Atmospheric Co2 ◽

N2o Emissions ◽

Gas Emissions ◽

Co2 Concentrations

The rising atmospheric CO2 concentrations have effects on the worldwide ecosystems such as an increase in biomass production as well as changing soil processes and conditions. Since this affects the ecosystem’s net balance of greenhouse gas emissions, reliable projections about the CO2 impact are required. Deterministic models can capture the interrelated biological, hydrological, and biogeochemical processes under changing CO2 concentrations if long-term observations for model testing are provided. We used 13 years of data on above-ground biomass production, soil moisture, and emissions of CO2 and N2O from the Free Air Carbon dioxide Enrichment (FACE) grassland experiment in Giessen, Germany. Then, the LandscapeDNDC ecosystem model was calibrated with data measured under current CO2 concentrations and validated under elevated CO2. Depending on the hydrological conditions, different CO2 effects were observed and captured well for all ecosystem variables but N2O emissions. Confidence intervals of ensemble simulations covered up to 96% of measured biomass and CO2 emission values, while soil water content was well simulated in terms of annual cycle and location-specific CO2 effects. N2O emissions under elevated CO2 could not be reproduced, presumably due to a rarely considered mineralization process of organic nitrogen, which is not yet included in LandscapeDNDC.

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