YIN Jingjing,WU Xiaobin,XU Guoxin,et al.Accumulation and Partitioning of Dry Matter,Nitrogen,Phosphorus and Potassium in Lotus[J].Northern Horticulture,2020,44(06):1-8.[doi:10.11937/bfyy.20193266]
莲藕干物质积累与氮磷钾吸收分配特征
- Title:
- Accumulation and Partitioning of Dry Matter,Nitrogen,Phosphorus and Potassium in Lotus
- Keywords:
- lotus; dry matter; nitrogen; phosphorus and potassium; nutrients absorption
- 文献标志码:
- A
- 摘要:
- 以山东莲藕地方品种“齐头”为试材,采用田间池栽试验,在莲藕不同生育期动态取样,测定各器官的干物质量和氮、磷、钾养分含量,计算各生育时期养分积累量,明确莲藕干物质积累及氮、磷、钾的吸收规律,以期为黄河中下游地区莲藕合理施肥提供参考依据。结果表明:莲藕干物质积累呈“慢-快-慢”的变化趋势。膨大茎形成期是莲藕干物质积累最快的时期,积累速率为每株29.27 g·d-1。根状茎膨大之前,干物质主要集中在叶片和叶柄中,膨大之后,叶片和叶柄中的营养物质逐渐向膨大茎中转移,膨大茎中干物质最终积累量占全株的66.68%。不同时期莲藕氮、磷、钾的吸收积累量不同。膨大茎形成期莲藕对氮、磷、钾的积累速率最大,分别为每株0.46、0.18、0.56 g·d-1,积累量分别占全生育期的49.50%、31.49%、39.56%。整个生育期莲藕氮、磷、钾吸收积累量的比例为1∶0.62∶1.53。根状茎膨大之前,莲藕氮和磷主要集中在叶片中,钾主要集中在叶柄中,之后随着地下根状茎的膨大,叶片和叶柄中的养分逐渐向地下部分转移,成熟期地下膨大茎中氮、磷和钾积累量分别占全株积累总量的71.97%、69.54%和87.89%。综上所述,莲藕前期以营养生长为主,根状茎膨大之后,以贮藏生长为主,膨大茎形成期为莲藕生长的关键时期。
- Abstract:
- The aim of this study was to reveal the law of dry matter accumulation,N,P,K nutrients absorption and utilization of lotus and lay a theoretical basis for lotus scientific fertilization in the middle and lower reaches of Yellow River.Taking a local lotus variety ‘Qitou’ in Shandong Province as the experimental materials,a pond culture experiment was conducted to study the dynamics of dry matter accumulation,N,P,K distribution and translocation in lotus by investigating the dry matter weight and nutrients contents in different organs at various growth stages.The results showed that the amount of dry matter accumulation increased with lotus growth period in a slow-fast-slow trend and the highest rate reached 29.27 g·d-1per plant at swollen rhizome formation stage.Approximately 69.00% of dry matter accumulation located in the leaves and petioles within 73 days after transplanting (DAT),while 66.68% located in the swollen rhizome at 153 DAT as nutrients translating to swollen rhizome from leaves and petioles during 73-153 DAT.The accumulation of N,P and K varied among different developing stages and reached the maximum rates of 0.46,0.18 and 0.56 g·d-1 per plant at swollen rhizome formation stage respectively.The absorptive amounts of N,P,and K at swollen rhizome formation stage accounted for 49.50%,31.49% and 39.56% of the total amount in the whole stages.The N∶P∶K ratio was 1∶0.62∶1.53 for the whole growing period.The nitrogen and phosphorus were mainly located in leaves,while potassium was mainly located in petioles before rhizome swelling,then N,P and K were translated from leaves and petioles to swollen rhizome along with rhizome swelling.The accumulation amounts of N,P and K in swollen rhizome accounted for 71.97%,69.54% and 87.89% of the total accumulation at the maturityperiod,respectively.In conclusion,lotus were mainly for vegetative growth in the early period and storage growth after rhizome swelling.Swollen rhizome formation stage was the key stage of lotus growth.
参考文献/References:
[1]柯卫东,黄新芳,李建洪,等.我国水生蔬菜科研与生产发展概况[J].长江蔬菜,2015(14):33-37.[2]李效尊,尹静静,杜绍印,等.水生蔬菜营养及药用价值研究进展[J].长江蔬菜,2015(22):25-30.[3]谢晋,韩迪,王靖,等.中国莲藕产业发展现状及展望[J].农业展望,2017,13(12):42-45,51.[4]吴曼,宗义湘,赵帮宏,等.中国水生蔬菜产业发展现状、存在问题及发展思路[J].长江蔬菜,2019(2):35-41.[5]MING R,VANBUREN R,LIU Y L,et al.Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)[J].Genome Biology,2013,14:41.[6]LIU Z W,ZHU H L,LIU Y P,et al.Construction of a high-density,high-quality genetic map of cultivated lotus (Nelumbo nucifera) using next-generation sequencing[J].BMC Genomics,2016,17:466.[7]ZHAO M,YANG J X,MAO T Y,et al.Detection of highly differentiated genomic regions between lotus (Nelumbo nucifera Gaertn.) with contrasting plant architecture and their functional relevance to plant architecture[J].Frontiers in Plant Science,2018(9):1219.[8]黄杨敏,孙晔,耿思翌,等.魔芋葡甘聚糖复合涂膜对鲜切莲藕保鲜效果的影响[J].食品科学,2016(8):266-271.[9]王洪斌,肖萌,李新楠,等.豌豆发酵液对莲藕多酚氧化酶的抑制作用及机理[J].中国食品学报,2016(5):76-81.[10]KANG E J,LEE S K,PARK K K,et al.Liensinine and niciferine,bioactive components of Nelumbo nucifera,inhibit the growth of breast cancer cells and breast cancer-associated bone loss[J].Evidence-Based Complementary and Alternative Medicine,2017,2017:1-12.[11]熊桂云,刘冬碧,陈防,等.莲藕氮磷钾锌肥配合施用效应研究[J].中国土壤与肥料,2009(1):31-34,39.[12]王必武,丁平,许国雄,等.早藕“3414”肥料效应试验与配方施肥推荐[J].湖北农业科学,2010,49(11):2727-2729.[13]刘冬碧,熊桂云,范先鹏,等.莲藕干物质和氮磷钾养分的累积与分配研究[J].植物科学学报,2011,29(1):124-129.[14]张长伟,徐文娟,王玉华,等.氮磷钾肥对莲藕产量和品质的影响[J].长江蔬菜,2011(16):92-95.[15]屈小江,赵有为.无花类型藕莲品种产量形成与需肥特性的初步研究[J].园艺学报,1991,18(4):335-339.[16]韦美拉,曾广巧,梁燕象,等.莲藕测土配方施肥“3414”肥效试验研究[J].广西农业科学,2009,40(9):1195-1198.[17]刘冬碧,范先鹏,杨利,等.湖北省莲藕氮肥合理用量与运筹方式研究[J].中国土壤与肥料,2013(2):66-71.[18]刘冬碧,丁亨虎,胡中立,等.湖北省莲藕磷肥合理用量研究[J].湖北农业科学,2012,51(21):4744-4748.[19]刘冬碧,张富林,张过师,等.湖北省莲藕钾肥合理用量与运筹方式研究[J].土壤,2014,46(2):239-244.[20]朱明超,蔡汉,罗伯祥,等.莲藕膨大过程的观察与分析[J].江苏农业学报,2003,19(4):266-256.[21]何文寿,马琨,代晓华,等.宁夏马铃薯氮、磷、钾养分的吸收累积特征[J].植物营养与肥料学报,2014,20(6):1477-1487.[22]董月,安霞,张辉,等.不同品种甘薯的生物量累积、养分吸收和分配规律[J].江苏农业学报,2016,32(2):313-318.[23]吴小庆,徐阳春,沈其荣,等.不同氮肥利用效率水稻品种开花后地上部分氨挥发研究[J].中国水稻科学,2006,20(4):429-433.
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备注/Memo
第一作者简介:尹静静(1988-),女,硕士,助理研究员,研究方向为水生蔬菜栽培与育种。E-mail:yinjing.1205@163.com.责任作者:李效尊(1979-),男,博士,副研究员,研究方向为水生蔬菜。E-mail:xiaozunli@163.com.基金项目:山东省农业科学院科技创新工程资助项目(CXGC2018E16);山东省农业科学院青年科研基金资助项目(2016YQN13);山东省自然科学基金三院联合基金资助项目(ZR2017YL021)。收稿日期:2019-11-11