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机译:培养基与磷酸盐溶解的相互作用改善了Dryland农业玉米产量和土壤生化特性
Department of Soil and Environmental Sciences University College of Agriculture University of Sargodha;
Department of Environmental Sciences and Engineering Government College University Faisalabad;
Department of Environmental Sciences and Engineering Government College University Faisalabad;
Department of Soil and Environmental Sciences University College of Agriculture University of Sargodha;
Department of Environmental Sciences and Engineering Government College University Faisalabad;
National Institute for Biotechnology and Genetic Engineering (NIBGE);
Ecole Polytechnique F茅d茅rale de Lausanne EPFL School of Architecture Civil and Environmental Engineering ENAC Laboratory of Ecological Systems ECOS;
Ecole Polytechnique F茅d茅rale de Lausanne EPFL School of Architecture Civil and Environmental Engineering ENAC Laboratory of Ecological Systems ECOS;
Ecole Polytechnique F茅d茅rale de Lausanne EPFL School of Architecture Civil and Environmental Engineering ENAC Laboratory of Ecological Systems ECOS;
Aridisol; Maize; Biofertilizer; Soil enzymes; Rhizosphere; Phosphorus;
机译:培养基与磷酸盐溶解的相互作用改善了Dryland农业玉米产量和土壤生化特性
机译:从两种农业土壤中分离的与豌豆(Pisum sativum L.)相关的磷酸盐增溶根际细菌的特性
机译:磷酸盐增溶根瘤菌可促进玉米缺磷土壤中玉米的生长
机译:使用蔬菜和生物废物堆肥:对饲料玉米生产和土壤性质的影响
机译:玉米(Zea mays L.)种植系统和热带豆类对土壤化学和生化特性以及对土壤传播的植物病原体的抑制作用。
机译:通过增溶磷酸盐的根瘤菌接种土壤来改善丛枝菌根的发育以提高磷酸盐的生物利用度((sup32)P)和养分循环
机译:用磷酸盐溶解的土壤接种土壤改善亚枝菌根发育,改善磷酸盐生物利用度((Sup32)P)和营养循环