追日式草莓立体栽培架改善光温环境提高草莓产量  被引量：9

作　　者：王春玲[1,2] 宋卫堂[1,3] 赵淑梅[1,3] 曲明山[4] 

机构地区：[1]中国农业大学水利与土木工程学院,北京100083 [2]塔里木大学水利与建筑工程学院,阿拉尔843300 [3]农业部设施农业工程重点实验室,北京100083 [4]北京市农业局土肥工作站,北京100029

出　　处：《农业工程学报》2017年第11期187-194,共8页Transactions of the Chinese Society of Agricultural Engineering

基　　金："十二五"农村领域国家科技计划课题--植物工厂立体多层栽培系统及其关键技术与装备研究(2013AA103002);现代农业产业技术体系建设专项(CARS-25-06B)

摘　　要：为解决草莓多层立体栽培中同一栽培架上位层对下位层的遮光问题,将固定式A字型栽培架在添加转动和控制部件后,使其以"追日"的方式运动,实现栽培架行向与太阳光照射方向平行,最大限度地利用直射光。试验测试并比较了3层追日式与固定式栽培架上草莓冠层光环境、根际以及冠层温度环境、草莓产量。结果表明:冬季3个月内(2015年11月8日立冬至2016年2月4日立春),追日式栽培架上、中、下层与固定式相应位置光合有效光量子流密度(photosynthetic photon flux density,PPFD)日累积量平均值相比,东侧分别高28.0%、79.3%、38.6%,西侧分别高30.1%、41.0%、18.2%。追日式栽培架西侧上、中、下层根际达到根系最适生长温度15~20℃的时间分别比固定式相应位置长60、40、120 min;相应地,前者冠层温度2016年1月19日晴天低于5℃的时间分别比后者短130、170、230 min。追日式栽培架东侧和西侧上、中、下草莓单株产量分别高于固定式栽培架相应位置,在试验时间内追日式栽培架的总产量比固定式栽培架高214.8 kg/667 m2。因此,追日式栽培系统可有效地改善冠层光温环境,提高作物产量和效益。In order to efficiently solve the shading problem between the upper layer and lower layer in the same cultivation system and between adjacent cultivation systems in multi-layer stereo-cultivation of strawberry,and to improve the fixed A-shaped frame system,a novel sun-tracking cultivation system was developed,which could keep the line of cultivation frame parallel to sunray to make the best use of direct light.In this study,some instruments,including the CANUOL intelligent remote control door opener,supporting multi-function controller,and the time control switch,were installed on the fixed A-shaped frame.So the fixed frame could rotate about its central axis according to a preset procedure,and the door opener revolved through the multi-function controller operation,thus boosting the cultivation frame motion.Time controller may set the start time of cultivation shelf running,running times,running time interval and the time length of operation as cultivation shelf homing according to the different needs of different seasons.The operating parameters of the cultivation frame were determined according to the changes of solar elevation and azimuth of the sun in winter in Beijing,based on the characteristics of the light environment of Beijing.This test set the running time of the sun-tracking frame to be 9：00-16：00 every day from November 2015 to March 2016,rotating once every 55 min,and turning 9 times every day.In November and next February and March,the total daily movement angle was 103.5°,each rotation angle was 11.5°,and each exercise took 4 s;the total daily movement angle was 96°,each rotation angle was 10.5°,and each exercise took 3.6 s in December and January next year.Parameters could be adjusted according to the actual situation in the process of actual production and application.In this study,the strawberry planting time was September 8th,2015,and the harvest time was from January 13 th to March 17 th,2016.Experimental design was that 5 sun-tracking frames were set as the test group,and 5 fixed fr

关 键 词：温室 太阳辐射 光 温 草莓 立体栽培 追日式 产量 

分 类 号：S625[农业科学—园艺学]