Application bio-fertilizers to increase yields of zero-tillage soybean of two varieties under different planting distances in dry season on vertisol land of Central Lombok, Indonesia

W. Wangiyana, N. Farida
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引用次数: 12

Abstract

Soybean crop is capable of establishing symbiosis with both Rhizobium bacteria and arbuscular mycorrhizal fungi (AMF) to form tripartite symbiosis. Symbiosis with Rhizobium bacteria enables a host plant to perform biological nitrogen fixation, while symbiosis with AMF enables host plants to increase nutrient uptake and water absorption so that they can be more tolerant to drought in dry seasons. This study aimed to examine the effect of application of Rhizobium and AMF bio-fertilizers on growth and yield of two soybean varieties under two treatments of plant spacing in vertisol ricefield during the dry season 2009 following rice crop without tillage. The experiment was arranged in a Randomized Block Design, with three blocks (replications) and three treatment factors, namely soybean varieties (V1= Anjasmoro; V2= Wilis), plant spacing (30x20 and 25x25 cm), and types of fertilizers (F1= without fertilizer; F2= Rhizobium application; F3= NPK only; F5= Rhizobium + AMF). Results indicated that application of both bio-fertilizers (Rhizobium and AMF) significantly increased soybean yield components, including grain yield, weight of 100 grains, grain number and total biomass per clump, compared with fertilization only with NPK or no fertilizers. There was no significant effect of plant spacing, but both varieties showed differences in plant height, grain yield, harvest index, and weight of 100 grains. However, there were interaction effects especially between variety and fertilization on plant dry weight, grain number and grain yield per clump, in which the highest grain yield was on soybean bio-fertilized with both Rhizobium and AMF, both in V1 and V2, but the average was higher in V1 (25.58 g/clump) than in V2 (15.03 g/clump). V1 was more responsive to dual application of the bio-fertilizers than V2.Soybean crop is capable of establishing symbiosis with both Rhizobium bacteria and arbuscular mycorrhizal fungi (AMF) to form tripartite symbiosis. Symbiosis with Rhizobium bacteria enables a host plant to perform biological nitrogen fixation, while symbiosis with AMF enables host plants to increase nutrient uptake and water absorption so that they can be more tolerant to drought in dry seasons. This study aimed to examine the effect of application of Rhizobium and AMF bio-fertilizers on growth and yield of two soybean varieties under two treatments of plant spacing in vertisol ricefield during the dry season 2009 following rice crop without tillage. The experiment was arranged in a Randomized Block Design, with three blocks (replications) and three treatment factors, namely soybean varieties (V1= Anjasmoro; V2= Wilis), plant spacing (30x20 and 25x25 cm), and types of fertilizers (F1= without fertilizer; F2= Rhizobium application; F3= NPK only; F5= Rhizobium + AMF). Results indicated that application of b...
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在印尼龙目岛中部垂直土壤旱季不同种植距离下,施用生物肥料提高两个品种免耕大豆产量
大豆作物能够与根瘤菌和丛枝菌根真菌(AMF)建立共生关系,形成三方共生关系。与根瘤菌共生可以使寄主植物进行生物固氮,而与AMF共生可以使寄主植物增加养分吸收和水分吸收,从而在干旱季节更能耐受干旱。本研究旨在探讨2009年旱季免耕水稻后,在两种株距处理下施用根瘤菌和AMF生物肥料对2个大豆品种生长和产量的影响。试验采用随机区组设计,设3个区组(重复)和3个处理因子,即大豆品种(V1= Anjasmoro;V2= Wilis)、株距(30x20和25x25 cm)、肥料种类(F1=不施肥;F2=根瘤菌施用;F3= NPK;F5=根瘤菌+ AMF)。结果表明,与只施用氮磷钾或不施用氮磷钾相比,施用两种生物肥料(根瘤菌和AMF)均显著提高了大豆产量组成,包括籽粒产量、百粒重、粒数和每丛总生物量。株距对两品种株高、产量、收获指数和百粒重的影响不显著。品种和施肥对单株干重、粒数和单株产量均有互作效应,其中V1和V2同时施用根瘤菌和AMF的单株产量最高,但V1的平均产量(25.58 g/ kg)高于V2 (15.03 g/ kg)。V1对双施生物肥料的响应强于V2。大豆作物能够与根瘤菌和丛枝菌根真菌(AMF)建立共生关系,形成三方共生关系。与根瘤菌共生可以使寄主植物进行生物固氮,而与AMF共生可以使寄主植物增加养分吸收和水分吸收,从而在干旱季节更能耐受干旱。本研究旨在探讨2009年旱季免耕水稻后,在两种株距处理下施用根瘤菌和AMF生物肥料对2个大豆品种生长和产量的影响。试验采用随机区组设计,设3个区组(重复)和3个处理因子,即大豆品种(V1= Anjasmoro;V2= Wilis)、株距(30x20和25x25 cm)、肥料种类(F1=不施肥;F2=根瘤菌施用;F3= NPK;F5=根瘤菌+ AMF)。结果表明,b…
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