|Table of Contents|

Impact of Illumination and Temperature Performance of Blanket-inside Solar Greenhouse and CO2 Enrichment on Cucumber Growth and Development(PDF)

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2016年09
Page:
50-55
Research Field:
Publishing date:

Info

Title:
Impact of Illumination and Temperature Performance of Blanket-inside Solar Greenhouse and CO2 Enrichment on Cucumber Growth and Development
Author(s):
SUN Qian1CUI Shimao1SONG Yang1YANG Zhigang12DONG Qiao1SUN Shijun1WU Hongyu1
(1.College of Agronomy,Inner Mongolia Agricultural University,Hohhot,Inner Mongolia 010019;2.Vegetable Institutes,Inner Mongolia Academy of Agricultural and Animal Husbandry Sciences,Hohhot,Inner Mongolia 010031)
Keywords:
solar greenhouseillumination and temperature performanceCO2net photosynthetic rate
PACS:
-
DOI:
10.11937/bfyy.201609013
Abstract:
To evaluate the effects of solar greenhouse with different structure and CO2 enrichment on illumination and temperature performance of greenhouse and cucumber growth and development in the central region of Inner Mongolia,using traditional solar greenhouse (A) and blanket-inside solar greenhouse(B),setting 4 treatments.AE(traditional solar greenhouse A with CO2 enrichment),AN(traditional solar greenhouse A without CO2 enrichment),BE(blanket-inside solar greenhouse B with CO2 enrichment) and BN(blanket-inside solar greenhouse B without CO2 enrichment),the influence of cucumber growth,photosynthetic property,quality and yield in different structure solar greenhouses with CO2 enrichment was studied.The results showed that the illumination and temperature in blanket-inside solar greenhouse was superior to traditional solar greenhouse,the average light intensity in blanket-inside solar greenhouse increased by 21.05%,comparing with traditional solar greenhouse.Under the condition of same greenhouse structure,stem height,average stem diameter,contents of soluble sugar,vitamin C,net photosynthetic rate and yield showed significant difference between the treatments with CO2 enrichment or not.Under the condition of same CO2 concentration,cucumber average stem height,average stem diameter,contents of soluble sugar,net photosynthetic rate and yield in BE were higher than those in AE.Therefore,the optimization in structure of blanket-inside solar greenhouse remarkably improved illumination and temperature property,combining with CO2 enrichment as application technology,there was crucial significance to promote the greenhouse performance and improve the efficiency of greenhouse vegetable production.

References:

 

[1]白义奎,李天来,王铁良,等.辽宁日光温室结构研究进展[J].北方园艺,2011(1):62-67.

[2]丁小明,周长吉,魏晓明.下沉式机打土墙结构的日光温室性能与适应性分析[C]//设施园艺创新与进展-中国寿光国际设施园艺高层学术论坛,2011.

[3]张志录,王思倩,刘中华,等.下沉式日光温室土质墙体热特性的试验与分析[J].农业工程学报,201228(12)208-215.

[4]崔世茂,陈源闽,霍秀文,等.大棚型日光温室设计及光效应初探[J].农业工程学报,2005,21(S):214-218.

[5]崔世茂.新型内保温日光温室:201320132272.8[P].2013-07-17.

[6]KLRING H PHAUSCHILD CHEINER Aet al.Model-based control of CO2 concentration in greenhouses at ambient levels increases cucumber yield[J].Agricultural and Forest Meteorology,2007,143(3):208-216.

[7]JIN CDU SWANG Yet al.Carbon dioxide enrichment by composting in greenhouses and its effect on vegetable production[J].Journal of Plant Nutrition and Soil Science,2009,172(3)418-424.

[8]魏珉,尹燕东,王秀峰,.CO2施肥对黄瓜幼苗矿质营养吸收与分配的影响[J].农业工程学报,200521(S):99-102.

[9]谢辉,范桂枝,荆彦辉,.植物对大气CO2浓度升高的光合适应机理研究进展[J].中国农业科技导报,2006,8(3):29-34.

[10]高文瑞,徐刚,王虹,.CO2施肥对设施蔬菜影响的研究进展[J].江苏农业科学,2009(6):213-216.

[11]王建林,温学发,赵风华,.CO2浓度倍增对8种作物叶片光合作用、蒸腾作用和水分利用效率的影响[J].植物生态学报,201236(5):438-446.

[12]TURNER N CFISCHER R A.Plant productivity in the arid and semiarid zones[J].Annual Review of Plant Biology2003,29:277-317.

[13]李合生.现代植物生理学[M].2.北京:高等教育出版社,2002:182-184.

[14]刘晓蕊,朱山川,刘杰才,.新型内保温日光温室光照和温湿度性能的初步研究[J].农业工程技术(温室园艺)2014(4):64-66.

[15]王明喜,崔世茂,王红彬,.大棚型日光温室光照、温度及湿度等性能的初步研究[J].农业工程技术(温室园艺)2008(5):19-21.

[16]刘彦辰,邹志荣,胡晓辉,.陕西关中地区不同跨度日光温室光温环境分析[J].西北农林科技大学学报(自然科学版),2013(2):108-116.

[17]张勇,邹志荣,李建明.倾转屋面日光温室的采光及蓄热性能试验[J].农业工程学报,2014(1):129-137.

[18]李家宁,马承伟,赵淑梅,.几种常用屋面形状和倾角的日光温室光照环境比较[J].新疆农业科学,2014,51(6):1008-1014.

[19]孙周平,黄文永,李天来,等.彩钢板保温装配式节能日光温室的温光性能[J].农业工程学报,201329(19)159-167.

[20]崔庆法,王静.补施CO2对日光温室黄瓜生长的影响[J].西北植物学报,200323(1):39-43.

[21]SAKAI HYAGI KKOBAYASHI Ket al.Rice carbon balance under elevated CO2 [J].New Phytologist2001,150(2):241-249.

[22]ALLEN L H J.Carbon dioxide increase:direct impacts on crops and indirect effects mediated though anticipated climatic changes[C]//Boote K J.Physiology and Determination of Crop Yield.USAMadison1994.425-459.

[23]ZHOU XGE ZKELLOMKI Set al.Effects of elevated CO2 and temperature on leaf characteristicsphotosynthesis and carbon storage in aboveground biomass of a boreal bioenergy crop (Phalaris arundinacea L.) under varying water regimes[J].Global Change Biology Bioenergy2011,3(3):223-234.

[24]马博,崔世茂,张之为,.高温、CO2加富对温室嫁接黄瓜形态特征、净光合速率和Rubisco羧化酶活性的影响[J].内蒙古农业大学学报(自然科学版)2013(3):32-39.

[25]潘璐,刘杰才,李晓静,.高温和加富CO2温室中黄瓜Rubisco活化酶与光合作用的关系[J].园艺学报,201441(8):1591-1600.

[26]BATTS G RELLIS R HMORISON J I Let al.Yield and partitioning in crops of contrasting cultivars of winter wheat in response to CO2 and temperature in field studies using temperature gradient tunnels[J].The Journal of Agricultural Science1998130(1)17-27.

[27]LEAKEY A D BAINSWORTH E ABERNACCHI C Jet al.Elevated CO2 effects on plant carbonnitrogenand water relationssix important lessons from FACE[J].Journal of Experimental Botany,2009,60(10):2859-2876.

[28]PRIOR S ARUNION G BMARBLE S Cet al.A review of elevated atmospheric CO2 effects on plant growth and water relationsimplications for horticulture[J].Hort Science201146(2):158-162.

[29]王玉静,崔世茂,方浩,等.CO2 加富,高温处理对温室嫁接黄瓜幼苗质膜透性和保护酶活性的影响[J].华北农学报,201227(1)159-163.

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Last Update: 2016-07-04