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Greenhouse gas emissions in a subtropical jasmine plantation managed with straw combined with industrial and agricultural wastes
Experimental Agriculture Pub Date : 2019-11-04 , DOI: 10.1017/s001447971900036x Qiang Jin , Haitao Liu , Chun Wang , Xiaotong Wang , Qingwen Min , Weiqi Wang , Jordi Sardans , Xiaohui Liu , Xu Song , Xiaoting Huang , Josep Peñuelas
Experimental Agriculture Pub Date : 2019-11-04 , DOI: 10.1017/s001447971900036x Qiang Jin , Haitao Liu , Chun Wang , Xiaotong Wang , Qingwen Min , Weiqi Wang , Jordi Sardans , Xiaohui Liu , Xu Song , Xiaoting Huang , Josep Peñuelas
The effects of straw alone or combined with industrial and agricultural wastes as fertilizers on greenhouse gas (GHG) emissions are still poorly known in cropland areas. Here, we studied the effects of 3.5 Mg ha−1 straw and 3.5 Mg ha−1 straw combined with 8 Mg ha−1 of diverse wastes on GHG emission in a subtropical Jasminum sambac plantation in southeastern China. There were five treatments in a completely randomized block design: control, straw only, straw + biochar, straw + steel slag, and straw + gypsum slag. Emissions of carbon dioxide were generally higher in the treatments with waste than in the control or straw-only treatments, whereas the contrary pattern was observed in CH4 and N2 O emission rates. Moreover, the total global warming potentials (GWPs) were no significantly higher in most of the amended treatments as compared to the control and straw-only treatments. In relation to the treatment with only straw, GWPs were 9.4% lower when steel slag was used. This finding could be a consequence of Fe amount added by steel slag, which would limit and inhibit the emissions of GHGs and their transport from soil to atmosphere. Our results showed that the application of slags did not increase the emission of GHGs and that the combination of straw with steel slag or biochar could be more effective than straw alone for controlling GHGs emission and improve soil C and nutrient provision.
更新日期:2019-11-04
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