Modelling the effects of pasture renewal on the carbon balance of grazed pastures

With the ratification of the Kyoto Protocol aimed at reducing greenhouse gases, Switzerland is committed to reducing CO2emissions by 4.2 million tonnes by 2008. The forests in Switzerland could contribute to the country's national carbon balance with maximum 1.8 million tonnes reduction of CO2. With an increased use of the forest the emissions could be reduced by up to 2 million tonnes by the substitution of other materials. With a targeted forest management policy carbon sink reduction and the substitution value of the forest could be balanced against one another. In the framework of climate policy the Federal government should create the legal and organisational conditions for this.

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Estimate of annual carbon balance of a young Siberian larch (Larix sibirica) plantation in Iceland

Tellus B ◽

10.3402/tellusb.v59i5.17067 ◽

2007 ◽

Vol 59 (5) ◽

Author(s):

Brynhildur Bjarnadottir ◽

Bjarni D. Sigurdsson ◽

Anders Lindroth

Keyword(s):

Carbon Balance ◽

Siberian Larch ◽

Larix Sibirica ◽

Annual Carbon ◽

Annual Carbon Balance

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Implications of future disturbance regimes on the carbon balance of Canada's managed forest (2010–2100)

Tellus B ◽

10.3402/tellusb.v62i5.16625 ◽

2010 ◽

Vol 62 (5) ◽

Cited By ~ 1

Author(s):

J. M. Metsaranta ◽

W. A. Kurz ◽

E. T. Neilson ◽

G. Stinson

Keyword(s):

Carbon Balance ◽

Managed Forest ◽

Disturbance Regimes

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Effects of 5-aminolevulinic acid and ethephon compound on carbon balance of source-sink of spring maize in Northeast China

ACTA AGRONOMICA SINICA ◽

10.3724/sp.j.1006.2020.93065 ◽

2020 ◽

Vol 46 (7) ◽

pp. 1063-1075

Author(s):

Peng YAN ◽

Yan-Li XU ◽

Qi WANG ◽

Feng-Lu ZHANG ◽

Rui-Jie LI ◽

...

Keyword(s):

Northeast China ◽

Carbon Balance ◽

Aminolevulinic Acid ◽

Spring Maize ◽

Source Sink

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Influence of the Water Source on the Carbon Footprint of Irrigated Agriculture: A Regional Study in South-Eastern Spain

Agronomy ◽

10.3390/agronomy11020351 ◽

2021 ◽

Vol 11 (2) ◽

pp. 351

Author(s):

Bernardo Martin-Gorriz ◽

Victoriano Martínez-Alvarez ◽

José Francisco Maestre-Valero ◽

Belén Gallego-Elvira

Keyword(s):

Carbon Footprint ◽

Carbon Balance ◽

Ghg Emissions ◽

Water Source ◽

Policy Implications ◽

Irrigated Agriculture ◽

Regional Study ◽

South Eastern ◽

Hypothetical Scenario ◽

Co2 Sink

Curbing greenhouse gas (GHG) emissions to combat climate change is a major global challenge. Although irrigated agriculture consumes considerable energy that generates GHG emissions, the biomass produced also represents an important CO2 sink, which can counterbalance the emissions. The source of the water supply considerably influences the irrigation energy consumption and, consequently, the resulting carbon footprint. This study evaluates the potential impact on the carbon footprint of partially and fully replacing the conventional supply from Tagus–Segura water transfer (TSWT) with desalinated seawater (DSW) in the irrigation districts of the Segura River basin (south-eastern Spain). The results provide evidence that the crop GHG emissions depend largely on the water source and, consequently, its carbon footprint. In this sense, in the hypothetical scenario of the TSWT being completely replaced with DSW, GHG emissions may increase by up to 50% and the carbon balance could be reduced by 41%. However, even in this unfavourable situation, irrigated agriculture in the study area could still act as a CO2 sink with a negative total and specific carbon balance of −707,276 t CO2/year and −8.10 t CO2/ha-year, respectively. This study provides significant policy implications for understanding the water–energy–food nexus in water-scarce regions.

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Glacial melt disturbance shifts community metabolism of an Antarctic seafloor ecosystem from net autotrophy to heterotrophy

Communications Biology ◽

10.1038/s42003-021-01673-6 ◽

2021 ◽

Vol 4 (1) ◽

Author(s):

Ulrike Braeckman ◽

Francesca Pasotti ◽

Ralf Hoffmann ◽

Susana Vázquez ◽

Angela Wulff ◽

...

Keyword(s):

Carbon Balance ◽

Benthic Communities ◽

Benthic Primary Production ◽

Community Metabolism ◽

West Antarctic ◽

Run Off ◽

Net Heterotrophy ◽

Benthic Ecosystems ◽

The Antarctic

AbstractClimate change-induced glacial melt affects benthic ecosystems along the West Antarctic Peninsula, but current understanding of the effects on benthic primary production and respiration is limited. Here we demonstrate with a series of in situ community metabolism measurements that climate-related glacial melt disturbance shifts benthic communities from net autotrophy to heterotrophy. With little glacial melt disturbance (during cold El Niño spring 2015), clear waters enabled high benthic microalgal production, resulting in net autotrophic benthic communities. In contrast, water column turbidity caused by increased glacial melt run-off (summer 2015 and warm La Niña spring 2016) limited benthic microalgal production and turned the benthic communities net heterotrophic. Ongoing accelerations in glacial melt and run-off may steer shallow Antarctic seafloor ecosystems towards net heterotrophy, altering the metabolic balance of benthic communities and potentially impacting the carbon balance and food webs at the Antarctic seafloor.

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Environmental Impact of Rotationally Grazed Pastures at Different Management Intensities in South Africa

Animals ◽

10.3390/ani11051214 ◽

2021 ◽

Vol 11 (5) ◽

pp. 1214

Author(s):

Hendrik P. J. Smit ◽

Thorsten Reinsch ◽

Pieter A. Swanepoel ◽

Ralf Loges ◽

Christof Kluß ◽

...

Keyword(s):

South Africa ◽

N Fertilization ◽

Yield Response ◽

N2o Emissions ◽

Pasture Management ◽

N Losses ◽

Enteric Fermentation ◽

Soil C ◽

Grazed Pastures ◽

Soil C And N

Nitrogen fertilization, irrigation and concentrate feeding are important factors in rotational pasture management for dairy farms in South Africa. The extent to which these factors affect environmental efficiency is subject to current and intense debate among scientists. A three-year field study was conducted to investigate the yield response of different N-fertilizer treatments (0 (N0), 220 (N20), 440 (N40), 660 (N60) and 880 (N80) kg N ha−1 year−1) on grazed pastures and to calculate the carbon footprint (CF) of milk produced. Excessive N-fertilization (N60 and N80) did not increase herbage dry matter and energy yields from pastures. However, N80 indicated the highest N-yield but at the same time also the highest N surpluses at field level. A maximum fertilizer rate of 220 kg ha−1 year−1 (in addition to excreted N from grazing animals) appears sufficient to ensure adequate herbage yields (~20 t DM ha−1 year−1) with a slightly positive field-N-balance. This amount will prevent the depletion of soil C and N, with low N losses to the environment, where adequate milk yields of ~17 t ECM ha−1 with a low CF (~1.3 kg CO2 kg ECM−1) are reached. Methane from enteric fermentation (~49% ± 3.3) and N2O (~16% ± 3.2) emissions from irrigated pastures were the main contributors to the CF. A further CF reduction can be achieved by improved N-fertilization planning, low emission irrigation techniques and strategies to limit N2O emissions from pasture soils in South Africa.

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