河北农业科学2025,Vol.29Issue(1):48-54,7.DOI:10.12148/hbnykx.20250013
缓控释肥对花生产量和品质影响的研究进展
Research Progress on the Effects of Slow/controlled release Fertilizers on Peanut Yield and Quality
摘要
Abstract
Slow/controlled release fertilizer is an efficient and environmentally friendly new type of fertilizer,which has significant advantages in solving the problems of low fertilizer utilization,high labor intensity,and en-vironmental pollution in peanut cultivation in China.To promote the widespread application of slow/controlled re-lease fertilizers in peanut cultivation,the effects and mechanisms of slow/controlled release fertilizers application rate,application methods,and combination on peanut yield and quality were elaborated.Appropriate application of slow/controlled release fertilizers can significantly increase peanut yield and improve kernel quality.The opti-mization of fertilization methods,such as deep application and layered strip application,can improve the yield increasing effect of slow/controlled release fertilizers.Reasonable combination of slow/controlled release fertilizers and quick acting fertilizer or organic fertilizer can effectively meet the nutrient requirements of peanut at differ-ent growth stages.In addition,research directions that should be focused on in the future were proposed,includ-ing in-depth exploration of the intrinsic mechanism of the impact of slow/controlled release fertilizers on peanut quality,development of specialized slow/controlled release fertilizers and related fertilization technologies suitable for peanuts,and construction of an application evaluation system for slow/controlled release fertilizers.These studies will further promote the safe,effective,and widespread use of slow/controlled release fertilizers in peanut cultivation.关键词
花生/缓控释肥/产量/品质/分层条施Key words
Peanut/Slow/Controlled release fertiliz-ers/Yield/Quality/Band fertilization in different soil layers分类
农业科技引用本文复制引用
李婷婷,贾瑞峰,肖晨星,沈彦辉,高璐阳,石玉龙,陈宏坤..缓控释肥对花生产量和品质影响的研究进展[J].河北农业科学,2025,29(1):48-54,7.基金项目
湖北省重点研发计划项目(2023BBB147) (2023BBB147)
