XU Hui-feng,WEI Long-xue,GAO Zhi-xin,et al.Effect of Plant Density on Photosynthetic Characters and Yield of Echium vulgare [J].Northern Horticulture,2014,38(10):1-5.
种植密度对蓝蓟光合特性和产量的影响
- Title:
- Effect of Plant Density on Photosynthetic Characters and Yield of Echium vulgare
- 文章编号:
- 1001-0009(2014)10-0001-05
- Keywords:
- Echium vulgare; density; photosynthetic characteristic; yield; effect
- 分类号:
- S 565.9
- 文献标志码:
- A
- 摘要:
- 以蓝蓟为试材,采用裂区试验设计,以种植行距(30、60 cm)为主区,株距(10、15、20、25、30 cm)为裂区,研究了大田环境下不同种植密度对蓝蓟光合特性和产量的影响。结果表明:在行距30 cm、株距25 cm(T4)和行距60 cm、株距20 cm(S3)情况下,蓝蓟各光合特性指标数值相互接近;随着株距的增高,光合指标增长缓慢,随着冠层的增高,光合速率呈增长趋势,T4和S3二者群体叶面积指数相似,S3时叶面积指数(LAI)小高峰出现于鼓粒期(9月7日),晚于T4时的盛花期(7月27日);随着密度的增加,百粒重和单株籽粒数逐渐降低,产量总体逐渐减少(T5(行株距30、30 cm)、S4(行株距60、25 cm)、S5(行株距60、30 cm)除外);T4和S3处理产量显著高于其它株距配置,表明高产最终取得的是群体产量的提高,而不仅是单株个体产量的增加,产量随种植密度增加到一定程度后不再增加,说明T4和S3是蓝蓟合理的栽培密度。
- Abstract:
- Experimental treatments applied by a split plot design with Echium vulgare as test material,row spacing(30,60 cm) factor was assigned to the main plot and plant spacing (10,15,20,25,30 cm)factor was assigned to the subplot to investigate the influence on photosynthetic characteristics of Echium vulgare,and density on yield and yield components in the field conditions were studied.The results showed that,the index values of photosynthetic characteristics in either case T4 and S3 were isometric each other,as plant spacing of increased,the index values of photosynthetic characteristics grew slowly;as the canopy increased,photosynthetic rate with an increasing trend;both T4 and S3 were similar to the leaf area index(LAI),the LAI little spikes of S3 at the seed filling stage,and was later to the full-bloom stage of T4.Yields of T4 were higher than other plant spacing configuration significantly,S3 production was significantly higher than other configurations too.As the density increased,100-kernel weight and number of Kernels per plant decreased,the overall yield also decreased (exclude T5(row and plant space 30,30),S4(row and plant space 60,25),S5(row and plant space 60,30)).T4 and S3 yield factors significanty increased,it showed that high output eventually yield enhancement,rather than just individual yield of per plant increased.With the density increased to a certain extent,yield did not increase.T4 and S3 were Echium vulgares’?reasonable planting density.
参考文献/References:
[1] Kimberley,Miranda Forrest L M, Boudyguina E, et a1.Echium oilreduces atherosclerosis in apoBlOO-only LDLrKO mice[J]. Atherosclerosis,2011, 220 (1):118-211.
[2] Anonymous. Refined Echium OiI[J]. Nutraceutical Business and Tech-nology ,2010,6(3): 45-64.
[3] Maddonni G A,Otegui M E, Cirilo A G Plant population density, rowspaang and hybrid effects on maize canopy architecture and light attenuation[J]. Field Crops Res,2001,71: 183-193.
[4] Kitessa S M,Young P, Nattrass G.et aL When balanced for precursorfatty acid supply echium oil is not superior to linseed oil in enriching lamb tissues with longchain n-3 PUFA[J]. British Journal of Nutrition. 2011. 108(l):71-79.
[5] Rabbani M, SajjadiS E.Khalili S A lack of tolerance to the anxiolyticaction of Echium amoenum [J]. Research in Pharmaceutical Sciences, 2012,6(2):101-602.
[6] Qing Y,O’ Shea, Michael T.Dietary Echium oil increases tissue (n-3)Long-Chain polyunsaturated fatty acids without elevating hepatic lipid concentrations inpremature neonatal rats l,2[J]. The Journal of Nutrition, 2009,139(7):66-79.
[7]张晓艳,杜吉到,郑殿峰.密度对大豆群体冠层结构及光合特性的影响[J].干旱地区农业研究,2011,30(2):185-241.
[8] Katayoun M S,Majid S, MohammadA Chemical composition and anti-microbial activity of essential oil of Echium italicum L[J]. Journal of Essential Oil Bearing Plants,2009, 12(5): 557-561.
[9] Warnaer M. Echium: the soil-to-oll source of essential fatty aads[J].Nutraceutical Business and Technology, 2010,6(4):22-45.
[10] Purcell L C,Ball R A, Reaper J D, et al.Radiation use and biomassproduction in soybean at different plant population densities[J]. Crop Science,2002,42:172-177.
[11]周勋波,杨国敏,孙淑娟,不同株行距配置对夏大豆群体结构及光截获的影响[J].生态学报,2010, 30(3):691-697.
[12] Awal M A, Koshi H,lkeda T. Radiation interception and use by maize/peanut intercrop canopy[J]. Agric For Meteorol, 2007, 139: 74-83.
[13]郑殿峰,张晓艳,李建英,等.大豆群体光合特性的研究现状[J].大豆科学,2007,26(3):412-416.
[14]张晓艳,杜吉到,郑巅峰,等.大豆不同群体叶面积指数及干物质积累与产量的关系[J].中国农学通报,2006 ,22(11):161-163.
[15]杜吉到,张晓艳,李建英,等.密度对大豆群体冠层微气象特征及产量的影响[J].中国油料作物学报,2010,32(2):245-251.
[16] Chikov V I.Evolution of notions about relationships between photosynthesis and plant productivity[J]. Russian Journal of Plant Physiology, 2008, 55(1):115-209.
[17]段巍巍,李慧玲,肖凯,等,密度对玉米光合生理特性和产量的影响[J].玉米科学,2007(2):111-242.
[18] Lawson T, Kramer D M. Raines C A Improving yield by exploitingmechanisms underlying natural variation of photosynthesis[J]. Current Opin-ion in Biotechnology,2012, 23(2): 215-220.
[19] Tadaki H,Shimpei 0. Mean residence time of leaf number.area,mass.and nitrogen in canopy photosynthesis[J]. Oecologia, 2012: 169(4):927-937.
[20]郑宝香,满为群,杜维广,等.高光效大豆光合速率与主要光合生理指标及农艺性状的关系[J].大豆科学,2008(3):240-361.
[21]周勋波,孙淑娟,陈雨海,等,株行距配置对夏大豆光利用特性、干物质积累和产量的影响[J].中国油料作物学报,2008(3):235-353.
[22]徐惠风,高志新,水分、pH值、光照对蓝蓟生长性状及产量的影响研究[J].灌溉排水学报,2011(3):221-453.
[23]高志新.蓝蓟(Echium vulgare)高产栽培技术的初步研究[D].长春:吉林农业大学,2012:667-981.
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备注/Memo
第一作者简介:徐惠风(1965-),女,博士,副教授,研究方向为作物栽培生理及生态环境。E-mail:xhfzj@163.com.