通过综合养分管理提高水蚀农田小麦生产力和土壤物理性质

IF 0.4 Q4 SOIL SCIENCE
Murad Ali, Farmanullah Khan, Subhanullah Subhanullah, W. Ahmad, M. Ishaq, M. Saeed
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引用次数: 4

摘要

由于基础设施的发展,巴基斯坦的农业用地正在减少,为了养活其群众,农业活动正在向坡地转移,在坡地,地表径流过程造成的土壤流失是对可持续农业的最严重生态威胁。通过综合养分管理(INM)提高土壤肥力和作物生产力是全球公认的做法。本研究于2014- 2015年进行了利用综合养分管理技术改善侵蚀土壤物理特性和作物生产力的实地调查。NPK(推荐用量百分比120:90:60 kg NPK ḥa -1)、FYM (t ha -1)和禽粪肥PM (t ha -1)的组合分别为;0:20:0 100% 0:0:0: 0时,25%:15:0,50%:10:0,75%:5:0,0:0:10,25:0:7.5,50%:0:5,75%:0:2.5,0:5:2.5,25%:5:2.5,50%:75%:5:2.5 5:2.5。结果表明,与对照处理相比,50%:5:2.5的营养源组合显著(p≤0.05)提高了穗粒数m -2(34%)、穗粒数1(38%)和籽粒产量(90%)。在土壤物理性质方面,0:20:0组合降低了土壤容重,提高了0 ~ 15 cm土壤深度的有效水分、有机质含量和饱和含水量。土壤有机质与有效持水量( = 0.92)、饱和率( = 0.93)呈正相关,与容重(ṣoil)呈负相关( = -0.96)。综上所述,化肥对侵蚀土壤物理性质和产量的改善效果明显落后于综合养分管理。在目前的试验条件下,50%:5:2.5的营养源组合施用恢复了侵蚀土壤的物理性质,并表现出优于其余INM及其未共享施用的资产。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancing wheat productivity and soil physical properties of water eroded agricultural land through integrated nutrient management
Agricultural land in Pakistan is decreasing due to development of infrastructure and in order to feed its masses, agricultural activities are shifting towards sloping land where soil loss through surface runoff process is the sternest ecological threat to sustainable agriculture. Improving soil fertility and crop productivity through integrated nutrients management (INM) is a globally accepted practice. The reported study was conducted during 2014-15 for field investigations in the improvement of eroded soil’s physical characteristics and crop productivity using integrated nutrients management techniques. The treatments contained combinations of NPK (% of recommended dose 120:90:60 kg NPK ḥa -1 ), FYM (t ha -1 ) and Poultry manure PM (t ha -1 ) respectively as; 0:0:0, 100%:0:0, 0:20:0, 25%:15:0, 50%:10:0, 75%:5:0, 0:0:10, 25:0:7.5, 50%:0:5, 75%:0:2.5, 0:5:2.5, 25%:5:2.5, 50%:5:2.5, 75%:5:2.5. Results revealed that 50%:5:2.5 combination of nutrient sources significantly (p ≤ 0.05) improved spike m -2 (by 34%), grains spike -1 (by 38%) and grain yield (by 90%) over the control treatment. Regarding soil physical properties, 0:20:0 combination reduced soil bulk density while improving available water, organic matter content and saturation water percentage at 0-15 cm soil depth. Positive correlation of soil organic matter was observed with available water holding capacity (ṙ = 0.92) and saturation percentage (ṙ = 0.93) while negatively co-related with ṣoil bulk density (ṙ = -0.96). It was concluded that chemical fertilizer’s improvement in physical properties of eroded soil and the resultant production was significantly lagging behind that achieved with integrated nutrient management. Under the current experimental conditions, 50%:5:2.5 combination of nutrient sources application restituted the physical properties of eroded soil and showed asset over rest of the INM and their unshared applications.
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来源期刊
Soil & Environment
Soil & Environment SOIL SCIENCE-
CiteScore
1.10
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