段刚强,杨恒山,张瑞富,毕文波,何冬冬.施磷深度对春玉米干物质及磷积累与转运的影响[J].干旱地区农业研究,2016,34(5):103~108
施磷深度对春玉米干物质及磷积累与转运的影响
Effects of phosphorus placement depth on dry matter and phosphorus accumulation and transfer of spring maize
  
DOI:10.7606/j.issn.1000-7601.2016.05.16
中文关键词:  春玉米  干物质  磷含量  积累与转运
英文关键词:spring maize  dry matter  phosphorus content  accumulation and translocation
基金项目:国家自然科学基金项目(31360308);国家粮食丰产科技工程(2012BAD04B04)
作者单位
段刚强 内蒙古民族大学农学院 内蒙古 通辽 028042 
杨恒山 内蒙古民族大学农学院 内蒙古 通辽 028042 
张瑞富 内蒙古民族大学农学院 内蒙古 通辽 028042 
毕文波 内蒙古民族大学农学院 内蒙古 通辽 028042 
何冬冬 内蒙古民族大学农学院 内蒙古 通辽 028042 
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中文摘要:
      以郑单958为供试品种,在土柱栽培条件下,以不施磷肥为对照,研究了6 cm(T6)、12 cm(T12)、18 cm(T18)和24 cm(T24)4个施磷深度对春玉米干物质及磷素养分积累与转运的影响。结果表明:随着施磷深度的增加春玉米干物质积累量和籽粒产量呈先升后降的趋势,均以12 cm施磷深度处理最大,6 cm施磷深度处理次之,24 cm施磷深度处理最小;叶和茎鞘干物质转运量、转运率以及对籽粒贡献率均以6 cm施磷深度处理最大,各处理之间大小为T6>T12>T18>T24>CK;器官磷含量、磷积累量以12 cm施磷深度处理最大,各处理之间大小顺序为T12>T6>T18>T24>CK;磷转运量、转运率和转运对籽粒贡献率总体上以6 cm施磷深度处理较高,6 cm施磷深度叶的磷转运量、转运率和转运对籽粒贡献率分别比其它处理高5.6%~59%、9.8%~12.6%和11.3%~35.6%;6 cm施磷深度茎鞘的磷转运量、转运率和转运对籽粒贡献率分别比其它处理高9.0%~65.4%、9.0%~10.2%、14.9%~50.3%,磷肥偏生产力、磷吸收效率和利用效率均以12cm施磷深度处理最大,且与其他处理间差异均达到显著水平,表明适度增加磷肥施用深度是提高磷肥利用效率的有效途径。
英文摘要:
      Zhengdan958 was employed as the experimental material under the condition of earth pillar cultivation, using no phosphorus as control, to investigate the effects of four phosphorus placement depths including 6, 12, 18 cm, and 24 cm, on the accumulation and transportation of dry matter and phosphorus nutrient in spring maize. The results showed that with the increase of phosphorus depth, dry matter accumulation amounts and grain yield were increased first and became decreased afterwards, all reaching the maximum at the 12 cm phosphorus placement depth. For leaf and stem-sheath dry matter translocation amounts and translocation rates, the contribution rates to grain were all the maximums at the 6 cm phosphorus placement depth. The phosphorus contents and accumulations of organ at the 12 cm phosphorus placement depth were the maximums. For phosphorus translocation amounts and translocation rates, the contribution rates to grain at the 6 cm phosphorus placement depth were overall the highest. The phosphorus element partial factor productivity, absorption and utilization rates were all the maximums at the 12 cm phosphorus placement depth, reaching significant different levels. It showed that moderately increasing phosphorus placement depths was an effective approach to the improvement phosphorus utilization rate.
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