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פותח על ידי קלירמאש פתרונות בע"מ -
Carbon exchange in rainfed wheat fields: Effects of long-term tillage and fertilization under arid conditions
Year:
2014
Authors :
בונפיל, דוד
;
.
Volume :
195
Co-Authors:
Eshel, G., The Soil Erosion Research Station, Ministry of Agriculture and Rural Development, Rishon-Lezion, Israel
Lifschitz, D., The Porter School of Environmental Studies, Tel Aviv University, Israel
Bonfil, D.J., Gilat Research Center, Agricultural Research Organization, Israel
Sternberg, M., Department of Molecular Biology and Ecology of Plants, Tel Aviv University, Israel
Facilitators :
From page:
112
To page:
119
(
Total pages:
8
)
Abstract:
The adoption of no-till (NT) cultivation practices in field crops such as wheat (Triticum aestivum) may mitigate increasing global concentrations of atmospheric CO2. Little information is currently available on the effects of rainfed wheat cultivation practices on the carbon exchange in arid regions. The goal of the present study was to quantify the long-term (13 years) effects of tillage and fertilization on soil CO2 fluxes in wheat fields under arid climatic conditions (230mm rainfall), and evaluate the carbon turnover. It was hypothesized that adopting a NT practice would improve the carbon exchange in wheat fields under arid conditions. During 2007-2009, four different practices were studied in a Calcic Xerosol in Southern Israel: conventional tillage with fertilization (CT+F), conventional tillage without fertilization (CT), no-till with fertilization (NT+F), and no-till without fertilization (NT). CO2 output as soil respiration efflux and CO2 input as aboveground net primary production (ANPP) were calculated. The annual carbon loss as CO2 efflux was higher under NT vs. CT practices both with fertilization (144.91 vs. 110.87gC m-2y-1) and without it (136.43 vs. 99.52gC m-2y-1). Similar trends were obtained for the carbon gain derived from wheat ANPP: 132.16 vs. 88.94gC m-2y-1 for the fertilized treatments, and 110.9 vs. 75.04gC m-2y-1 for the unfertilized practices under NT and CT, respectively. Furthermore, the physical soil-sealing layer, commonly found under CT practices due to raindrops' impact on the bare soil, highly affects the soil water regime, and also negatively affects soil gas exchange under CT. Our results clearly support the long-term advantages of adopting NT practices, where plant residues create a protective cover on the soil surface, in rainfed arid regions for all good reasons: better rainwater utilization and soil aeration, enhancing soil organic carbon content, and increasing yields. © 2014 Elsevier B.V.
Note:
Related Files :
arid environment
carbon cycle
carbon sequestration
fertilizer application
Israel
wheat
zero tillage
עוד תגיות
תוכן קשור
More details
DOI :
10.1016/j.agee.2014.05.007
Article number:
Affiliations:
Database:
סקופוס
Publication Type:
מאמר
;
.
Language:
אנגלית
Editors' remarks:
ID:
22461
Last updated date:
02/03/2022 17:27
Creation date:
16/04/2018 23:52
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Scientific Publication
Carbon exchange in rainfed wheat fields: Effects of long-term tillage and fertilization under arid conditions
195
Eshel, G., The Soil Erosion Research Station, Ministry of Agriculture and Rural Development, Rishon-Lezion, Israel
Lifschitz, D., The Porter School of Environmental Studies, Tel Aviv University, Israel
Bonfil, D.J., Gilat Research Center, Agricultural Research Organization, Israel
Sternberg, M., Department of Molecular Biology and Ecology of Plants, Tel Aviv University, Israel
Carbon exchange in rainfed wheat fields: Effects of long-term tillage and fertilization under arid conditions
The adoption of no-till (NT) cultivation practices in field crops such as wheat (Triticum aestivum) may mitigate increasing global concentrations of atmospheric CO2. Little information is currently available on the effects of rainfed wheat cultivation practices on the carbon exchange in arid regions. The goal of the present study was to quantify the long-term (13 years) effects of tillage and fertilization on soil CO2 fluxes in wheat fields under arid climatic conditions (230mm rainfall), and evaluate the carbon turnover. It was hypothesized that adopting a NT practice would improve the carbon exchange in wheat fields under arid conditions. During 2007-2009, four different practices were studied in a Calcic Xerosol in Southern Israel: conventional tillage with fertilization (CT+F), conventional tillage without fertilization (CT), no-till with fertilization (NT+F), and no-till without fertilization (NT). CO2 output as soil respiration efflux and CO2 input as aboveground net primary production (ANPP) were calculated. The annual carbon loss as CO2 efflux was higher under NT vs. CT practices both with fertilization (144.91 vs. 110.87gC m-2y-1) and without it (136.43 vs. 99.52gC m-2y-1). Similar trends were obtained for the carbon gain derived from wheat ANPP: 132.16 vs. 88.94gC m-2y-1 for the fertilized treatments, and 110.9 vs. 75.04gC m-2y-1 for the unfertilized practices under NT and CT, respectively. Furthermore, the physical soil-sealing layer, commonly found under CT practices due to raindrops' impact on the bare soil, highly affects the soil water regime, and also negatively affects soil gas exchange under CT. Our results clearly support the long-term advantages of adopting NT practices, where plant residues create a protective cover on the soil surface, in rainfed arid regions for all good reasons: better rainwater utilization and soil aeration, enhancing soil organic carbon content, and increasing yields. © 2014 Elsevier B.V.
Scientific Publication
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