WANG Y Y, HU C S, DONG W X, ZHANG Y M, LI X X, LIU X P. Carbon neutralization potential and carbon sequestration efforts in a wheat-maize rotation system in the North China Plain[J]. Chinese Journal of Eco-Agriculture, 2022, 30(4): 651−657. DOI: 10.12357/cjea.20210747
Citation: WANG Y Y, HU C S, DONG W X, ZHANG Y M, LI X X, LIU X P. Carbon neutralization potential and carbon sequestration efforts in a wheat-maize rotation system in the North China Plain[J]. Chinese Journal of Eco-Agriculture, 2022, 30(4): 651−657. DOI: 10.12357/cjea.20210747

Carbon neutralization potential and carbon sequestration efforts in a wheat-maize rotation system in the North China Plain

  • Agricultural C neutralization is an effective method of using industrial carbon dioxide (CO2) in agricultural production. Aiming at the national goal of “peaking CO2 emissions before 2030 and achieving carbon neutrality before 2060”, we defined the agricultural non-energy C balance in the North China Plain (NCP) by using the “static chamber-eddy covariance-biomass monitoring method”. Simultaneously, C emissions from agricultural energy were determined based on the sampling survey data of farmers and the C emission coefficients of agricultural activities. Thus, the C neutralization potential of croplands in this region was calculated. Our results showed that in the NCP, the net amount of organic C (including grains and returned straw) for winter wheat and summer maize was 604 g(C)∙m−2 and 540 g(C)∙m−2, respectively. Considering the ecosystem autotrophic respiration consumption, the net C sequestration of non-energy C was −359 g(C)∙m−2 and −143 g(C)∙m−2 in the wheat and maize seasons, respectively. Energy C emissions in the system were further studied. The C emissions of pesticides, chemical fertilizers, agricultural diesel, and irrigation in the wheat season were 3.74, 90.70, 5.68, and 2.05 g(C)∙m−2, respectively; and those in the maize season were 2.89, 53.70, 10.20, and 2.05 g(C)∙m−2, respectively. Combined with the non-energy and energy C budget, both the winter wheat and summer maize seasons were C sinks, −257 g(C)∙m−2 for the winter wheat season and −74 g(C)∙m−2 for the summer-maize season. For example, in Luancheng (located in Hebei Province), a typical intensive and high-yield grain region in the NCP, the annual C sequestration potential of winter wheat and summer maize croplands was 3.8×1010 g C and 9.4×109 g C, respectively. In addition, strengthening cultivated land management, promoting low-C agriculture, and developing C-rich agriculture can be effective strategies for C sequestration in this region. In conclusion, we identified the C sink intensity of winter wheat and summer maize rotation cropland in the NCP, estimated the C neutralization potential in Luancheng, Hebei Province, and proposed effective C sequestration efforts.
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