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机译:通过改变蛋白质土壤中大豆的根生长策略,生物炭可以改善生物氮固定
Biochar Engineering & Technology Research Center of Liaoning Province Rice Research Institute Agronomy College Shenyang Agricultural University Shenyang 110866 Liaoning China;
Biochar Engineering & Technology Research Center of Liaoning Province Rice Research Institute Agronomy College Shenyang Agricultural University Shenyang 110866 Liaoning China;
Biochar Engineering & Technology Research Center of Liaoning Province Rice Research Institute Agronomy College Shenyang Agricultural University Shenyang 110866 Liaoning China;
Biochar Engineering & Technology Research Center of Liaoning Province Rice Research Institute Agronomy College Shenyang Agricultural University Shenyang 110866 Liaoning China;
Biochar Engineering & Technology Research Center of Liaoning Province Rice Research Institute Agronomy College Shenyang Agricultural University Shenyang 110866 Liaoning China;
Biochar Engineering & Technology Research Center of Liaoning Province Rice Research Institute Agronomy College Shenyang Agricultural University Shenyang 110866 Liaoning China;
Biochar Engineering & Technology Research Center of Liaoning Province Rice Research Institute Agronomy College Shenyang Agricultural University Shenyang 110866 Liaoning China;
Biochar Engineering & Technology Research Center of Liaoning Province Rice Research Institute Agronomy College Shenyang Agricultural University Shenyang 110866 Liaoning China;
Biochar Engineering & Technology Research Center of Liaoning Province Rice Research Institute Agronomy College Shenyang Agricultural University Shenyang 110866 Liaoning China;
Biochar; Root growth strategy; Biological nitrogen fixation; Soybean;
机译:Biochar和秸秆返回对2年来繁殖土壤和大豆生长的关键培养局限的影响
机译:Biochar对土壤结构土壤结构及土壤有机碳和氮气贮藏的影响
机译:喀麦隆南部两种低磷土壤中大豆的生物固氮潜力
机译:生物炭对酸性黑土养分,大豆根和产量的影响
机译:在不理想的根区温度下促进根瘤菌和大豆结瘤的植物生长以及固氮。
机译:Bradyrhizobium作为Mung Bean(Vigna Radiata)结节在热带土壤中唯一的根瘤菌居民:一种基于微生物组的策略用于使用生物产品改善生物氮固定
机译:Bradyrhizobium作为Mung Bean(Vigna Radiata)结节在热带土壤中唯一的根瘤菌居民:一种基于微生物组的策略,用于使用生物产品改善生物氮固定