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- Title
Annual net greenhouse gas balance in a halophyte ( Helianthus tuberosus) bioenergy cropping system under various soil practices in Southeast China.
- Authors
Liu, Shuwei; Zhao, Chun; Zhang, Yaojun; Hu, Zhiqiang; Wang, Cong; Zong, Yajie; Zhang, Ling; Zou, Jianwen
- Abstract
A full accounting of net greenhouse gas balance ( NGHGB) and greenhouse gas intensity ( GHGI) was examined in an annual coastal reclaimed saline Jerusalem artichoke-fallow cropping system under various soil practices including soil tillage, soil ameliorant, and crop residue amendments. Seasonal fluxes of soil carbon dioxide ( CO2), methane ( CH4), and nitrous oxide (N2O) were measured using static chamber method, and the net ecosystem exchange of CO2 ( NEE) was determined by the difference between soil heterotrophic respiration ( RH) and net primary production ( NPP). Relative to no-tillage, rotary tillage significantly decreased the NPP of Jerusalem artichoke while it had no significant effects on the annual RH. Rotary tillage increased CH4 emissions, while seasonal or annual soil N2O emissions did not statistically differ between the two tillage treatments. Compared with the control plots, soil ameliorant or straw amendment enhanced RH, soil CH4, and N2O emissions under the both tillage regimes. Annual NGHGB was negative for all the field treatments, as a consequence of net ecosystem CO2 sequestration exceeding the CO2-equivalents released as CH4 and N2O emissions, which indicates that Jerusalem artichoke-fallow cropping system served as a net sink of GHGs. The annual net NGHGB and GHGI were estimated to be 11-21% and 4-8% lower in the NT than in RT cropping systems, respectively. Soil ameliorant and straw amendments greatly increased NPP and thus significantly decreased the negative annual net NGHGB. Overall, higher NPP but lower climatic impacts of coastal saline bioenergy production would be simultaneously achieved by Jerusalem artichoke cultivation under no-tillage with improved saline soil conditions in southeast China.
- Subjects
CHINA; GREENHOUSE gases; JERUSALEM artichoke; ENERGY crops; CROPPING systems; CARBON in soils; SOIL management; TILLAGE; AGRICULTURE
- Publication
GCB Bioenergy, 2015, Vol 7, Issue 4, p690
- ISSN
1757-1693
- Publication type
Article
- DOI
10.1111/gcbb.12185