Ke Song1,2, Jianjun Yang2, Yong Xue2, Weiguang Lv2, Xianqing Zheng2, Jianjun Pan1. 1. College of Natural Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing 210095, China. 2. Institute of Eco-Environment and Plant Protection, Shanghai Academy of Agricultural Sciences, Shanghai 201403, China.
Abstract
In this study, a fixed-site field experiment was conducted to study the influence of different combinations of tillage and straw incorporation management on carbon storage in different-sized soil aggregates and on crop yield after three years of rice-wheat rotation. Compared to conventional tillage, the percentages of >2 mm macroaggregates and water-stable macroaggregates in rice-wheat double-conservation tillage (zero-tillage and straw incorporation) were increased 17.22% and 36.38% in the 0-15 cm soil layer and 28.93% and 66.34% in the 15-30 cm soil layer, respectively. Zero tillage and straw incorporation also increased the mean weight diameter and stability of the soil aggregates. In surface soil (0-15 cm), the maximum proportion of total aggregated carbon was retained with 0.25-0.106 mm aggregates, and rice-wheat double-conservation tillage had the greatest ability to hold the organic carbon (33.64 g kg-1). However, different forms occurred at higher levels in the 15-30 cm soil layer under the conventional tillage. In terms of crop yield, the rice grown under conventional tillage and the wheat under zero tillage showed improved equivalent rice yields of 8.77% and 6.17% compared to rice-wheat double-cropping under zero tillage or conventional tillage, respectively.
In this study, a fixed-site field experiment was conducted to study the influence of different combinations of tillage and n class="Chemical">straw incorporation management on carbon storage in different-sized soil aggregates and on crop yield after three years of rice-wheat rotation. Compared to conventional tillage, the percentages of >2 mm macroaggregates and water-stable macroaggregates in rice-wheat double-conservation tillage (zero-tillage and straw incorporation) were increased 17.22% and 36.38% in the 0-15 cm soil layer and 28.93% and 66.34% in the 15-30 cm soil layer, respectively. Zero tillage and straw incorporation also increased the mean weight diameter and stability of the soil aggregates. In surface soil (0-15 cm), the maximum proportion of total aggregated carbon was retained with 0.25-0.106 mm aggregates, and rice-wheat double-conservation tillage had the greatest ability to hold the organiccarbon (33.64 g kg-1). However, different forms occurred at higher levels in the 15-30 cm soil layer under the conventional tillage. In terms of crop yield, the rice grown under conventional tillage and the wheat under zero tillage showed improved equivalent rice yields of 8.77% and 6.17% compared to rice-wheat double-cropping under zero tillage or conventional tillage, respectively.
Authors: Na Li; Yanqing Zhang; Zhanxiang Sun; John Yang; Enke Liu; Chunqian Li; Fengming Li Journal: Int J Environ Res Public Health Date: 2021-03-14 Impact factor: 3.390
Authors: Saeed Ahmad; Ijaz Hussain; Abdul Ghaffar; Muhammad Habib Ur Rahman; Muhammad Zain Saleem; Muhammad Waqas Yonas; Hammad Hussnain; Rao Muhammad Ikram; Muhammad Arslan Journal: Sci Rep Date: 2022-08-18 Impact factor: 4.996
Authors: Emad Jahanzad; Brent A Holtz; Cameron A Zuber; David Doll; Kelsey M Brewer; Sean Hogan; Amélie C M Gaudin Journal: PLoS One Date: 2020-03-27 Impact factor: 3.240