M. Rashid, F. Uddin, M. Mostofa, S. Sarkar, Animesh Sarkar, I. Ahmed
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The Zn management regimes were NoZinc = no Zn fertilizer (control); Basal100 = 100% recommended dose (RD) of Zn fertilizer (i.e. 15 kg ZnSO4.7H2O ha−1) added during final land preparation; Foliar100@EV = 100% RD of Zn was applied as foliar spray during early vegetative (EV) stage; Folar100@Rp = 100% RD of Zn was applied as foliar spray during reproductive (Rp) stage; Foliar@50EV+50Rp = 100% RD of Zn fertilizer was applied as foliar spray by equal split during EV and Rp stages. ZnSO4.7H2O @15 kg ha−1 was used for basal application and 0.1% of the same fertilizer was used as foliar spray. The experiment was laid out a factorial randomized complete block design (RCBD) with 3 replications. ‘Serakinkon’, a commercially available AMF inoculum collected from Japan was used in the experiment. The inoculum mainly consisted of Gigaspora margarita species of AMF. It was found that both AMF inoculation and Zn fertilizer management significantly affected leaf greenness (SPAD value), number of cobs plant−1, number of seeds cob−1, weight of 1000 grains, and grain yield (all p<0.05). The highest maize grain yield was obtained from the AMF inoculated plots when Zn was foliar applied during both early vegetative and reproductive stages (50%EV + 50% Rp) or foliar applied (100% RD) during reproductive stage. It appeared that only AMF inoculation boosted 15% maize yield in comparison to non-inoculated crops. Zn fertilizer management increased 16% grain yield over control (no Zn applied). 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引用次数: 0
摘要
在孟加拉国农业大学农学田间实验室进行了试验,研究了接种菌根真菌(AMF)和锌肥管理对杂交玉米Kohinoor 1820生长和产量的影响。试验分为AMF接种和未接种2个水平和5个水平的锌肥管理。锌管理制度为不施锌=不施锌肥(对照);Basal100 =在最后准备土地时添加100%推荐剂量(RD)的锌肥(即15 kg ZnSO4.7H2O ha - 1);Foliar100@EV = 100% RD锌在营养早期叶面喷施;Folar100@Rp = 100% RD锌在生殖期叶面喷施;Foliar@50EV+50Rp = 100% RD的锌肥在EV期和Rp期等分叶面喷施。ZnSO4.7H2O @15 kg ha - 1作基施,0.1%作叶面喷施。试验采用全因子随机区组设计(RCBD), 3个重复。实验中使用了从日本收集的市售AMF接种物“Serakinkon”。接种物主要由AMF的Gigaspora margarita种组成。结果表明,接种AMF和锌肥处理均显著影响叶片绿度(SPAD值)、穗轴数、穗轴数、千粒重和籽粒产量(均p<0.05)。在营养和生殖早期叶面施锌(50% ev + 50% Rp)或在生殖期叶面施锌(100% RD)时,AMF接种地块的玉米产量最高。与未接种的作物相比,似乎只有AMF接种使玉米产量提高了15%。施用锌肥比对照增产16%。筛选适合玉米作物的天然AMF菌株有待进一步研究。
Growth and yield response of hybrid maize to arbuscular mycorrhizal fungi inoculation and zinc fertilizer management
An experiment was conducted at the Agronomy Field Laboratory in Bangladesh Agricultural University to evaluate the effect of arbuscular mycorrhizal fungi (AMF) inoculation and zinc (Zn) fertilizer management on growth and yield of hybrid maize Kohinoor 1820. The experiment consisted of two levels of AMF inoculation (AMF-inoculated and non-inoculated) and five levels of Zn fertilizer management. The Zn management regimes were NoZinc = no Zn fertilizer (control); Basal100 = 100% recommended dose (RD) of Zn fertilizer (i.e. 15 kg ZnSO4.7H2O ha−1) added during final land preparation; Foliar100@EV = 100% RD of Zn was applied as foliar spray during early vegetative (EV) stage; Folar100@Rp = 100% RD of Zn was applied as foliar spray during reproductive (Rp) stage; Foliar@50EV+50Rp = 100% RD of Zn fertilizer was applied as foliar spray by equal split during EV and Rp stages. ZnSO4.7H2O @15 kg ha−1 was used for basal application and 0.1% of the same fertilizer was used as foliar spray. The experiment was laid out a factorial randomized complete block design (RCBD) with 3 replications. ‘Serakinkon’, a commercially available AMF inoculum collected from Japan was used in the experiment. The inoculum mainly consisted of Gigaspora margarita species of AMF. It was found that both AMF inoculation and Zn fertilizer management significantly affected leaf greenness (SPAD value), number of cobs plant−1, number of seeds cob−1, weight of 1000 grains, and grain yield (all p<0.05). The highest maize grain yield was obtained from the AMF inoculated plots when Zn was foliar applied during both early vegetative and reproductive stages (50%EV + 50% Rp) or foliar applied (100% RD) during reproductive stage. It appeared that only AMF inoculation boosted 15% maize yield in comparison to non-inoculated crops. Zn fertilizer management increased 16% grain yield over control (no Zn applied). Further research should be conducted on the screening of naturally occurring AMF strain suitable for maize crop.
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