[1]张源达,杨再强基,陆思宇,等.设施菊花品种“金背大红”叶片光合特性对高温胁迫的响应[J].北方园艺,2021,(06):72-80.[doi:10.11937/bfyy.20200894]
 ZHANG Yuanda,YANG Zaiqiang,LU Siyu,et al.Response of Photosynthetic Characteristics of Leaves of Protected Chrysanthemum Variety ‘Jinbeidahong’ to High Temperature Stress[J].Northern Horticulture,2021,(06):72-80.[doi:10.11937/bfyy.20200894]
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设施菊花品种“金背大红”叶片光合特性对高温胁迫的响应

《北方园艺》[ISSN:1001-0009/CN:23-1247/S] 卷: 期数: 2021年06 页码: 72-80 栏目: 出版日期: 2021-03-30
Title:
Response of Photosynthetic Characteristics of Leaves of Protected Chrysanthemum Variety ‘Jinbeidahong’ to High Temperature Stress
作者:
张源达1杨再强12基陆思宇1杨立1郑涵1
(1.南京信息工程大学 气象灾害预报预警与评估协同创新中心,江苏 南京 210044;2.江苏省农业气象重点实验室,江苏 南京 210044)
Author(s):
ZHANG Yuanda1YANG Zaiqiang12基LU Siyu1YANG Li1ZHENG Han1
(1.Collaborative Innovation Center on Forecast and Evaluation of Meteorological Disasters,Nanjing University of Information Science & Technology,Nanjing,Jiangsu 210044;2.Jiangsu Key Laboratory of Agricultural Meteorology,Nanjing,Jiangsu 210044)
关键词:
高温胁迫菊花光合特性光合色素含量
Keywords:
high temperature stesschrysanthemumphotosynthetic characteristicsphotosynthetic pigment content
DOI:
10.11937/bfyy.20200894
文献标志码:
A
摘要:
以多头菊品种“金背大红”幼苗为试材,在大型人工气候室中设置日最低气温/最高气温分别为25 ℃/35 ℃、30 ℃/40 ℃,处理3、6、9、12 d,昼夜分别恒温处理12 h,并于处理后在20 ℃/30 ℃下恢复5、10、15 d,以20 ℃/30 ℃为对照处理(CK),测定不同处理下菊花幼苗叶片的光合参数及光合色素含量,以期揭示高温胁迫及恢复对设施菊花叶片光合特性、光合色素含量的影响。结果表明:在日最高温度35 ℃以上,随着温度升高和胁迫时间增加,菊花叶片光饱和点(LSP)、表观量子效率(AQE)、净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr)、气孔限制值(Ls)、水分利用率(WUE)、叶绿素含量、类胡萝卜素含量均有所降低,日最高气温为40 ℃时各参数分别比CK降低了56.42%、41.22%、78.54%、90.33%、54.55%、31.29%、54.09%、42.44%、40.26%,恢复后,各项指标有不同程度增加,但趋于稳定后仍无法恢复到CK水平,恢复15 d时,各参数分别比CK低47.04%、35.88%、50.56%、76.52%、33.84%、19.45%、32.75%、23.90%、23.07%。研究表明,高温胁迫严重抑制了菊花幼苗的生长,对菊花幼苗光系统的结构和功能造成了不可逆的伤害。
Abstract:
In order to reveal the effects of high temperature stress and recovery on photosynthetic characteristics and photosynthetic pigment content of greenhouse chrysanthemum leaves,taking the seedlings of ‘Jinbeidahong’ as the experimental material,the experiments of high temperature and durations were carried out in a large artificial climate chamber with the daily minimum temperature/maximum temperature as 25 ℃/35 ℃,30 ℃/40 ℃,and durations as 3,6,9,12 days respectively,then recoverd at 20 ℃/30 ℃ which been taken as control check (CK) for 5,10,15 days.The photosynthetic parameters and photosynthetic pigment content of greenhouse chrysanthemum leaves with different treatments were determined in seedlings stages.The results showed that when the daily maximum temperature was above 35 ℃,all the indexes for the light saturation point(LSP),apparent quantum efficiency(AQE),net photosynthetic rate(Pn),stomatal conductance(Gs),transpiration rate(Tr),stomata limitation(Ls),water use efficiency(WUE),chlorophyll content and carotenoid content of greenhouse chrysanthemum leaves decreased with the increase of temperature and duration.When the daily maximum temperature reached 40 ℃,all the values were 56.42%,41.22%,78.54%,90.33%,54.55%,31.29%,54.09%,42.44% and 40.26% lower than that of the CK,respectively.After recovery,each index increased to some extent,but it could not recover to CK level after stabilizing.After 15 days recovery,the parameters were 47.04%,35.88%,50.56%,76.52%,33.84%,19.45%,32.75%,23.90% and 23.07% lower than CK.This study revealed high temperature stress seriously inhibited the growth of chrysanthemum seedlings and caused irreversible damage to the structure and function of the light system of chrysanthemum seedlings.

参考文献/References:

[1]晓白,薛建平,房伟民.菊花:产业蓄势待发[J].中国花卉园艺,2013(23):28-29.[2]CHEN L.Japan marketing investigation and analysis on cut flower of chrysanthemum spray[J].Agriculture Engineering Technology,Greenhouse Horticulture,2005(3):17-21.[3]叶子飘.光合作用对光和CO2响应模型的研究进展[J].植物生态学报,2010,34(6):727-740.[4]麻雪艳,周广胜.夏玉米叶片气体交换参数对干旱过程的响应[J].生态学报,2018,38(7):2372-2383.[5]HAMERLYNCK基 E,KNAPP A K.Photosynthetic and stomatal responses to high temperature and light in two oaks at the western limit of their range[J].Tree Physiology,1996,16(6):557-565.[6]赵和丽,杨再强,王明田,等.高温高湿胁迫及恢复对番茄快速荧光诱导动力学的影响[J].生态学杂志,2019,38(8):2405-2413.[7]张富存,张波,王琴,等.高温胁迫对设施番茄光合作用特性的影响[J].中国农学通报,2011,27(28):211-216.[8]郝树芹,束靖,段曦,等.不同秸秆复配基质对丝瓜幼苗形态指标、光合色素、光合特性及根系活力的影响[J].北方园艺,2019(14):6-11.[9]张传玲,江红生,李长江,等.纳米银与镉的复合毒性对拟南芥根系形态及叶片生理指标的影响[J].中国环境科学,2018,38(5):1951-1960.[10]杜尧东,李键陵,王华,等.高温胁迫对水稻剑叶光合和叶绿素荧光特征的影响[J].生态学杂志,2012,31(10):2541-2548.[11]薛思嘉,杨再强,李军.黄瓜花期高温热害对叶片光合特性和果实品质的影响[J].北方园艺,2017(6):1-7.[12]韦婷婷,杨再强,王琳,等.玻璃温室和塑料大棚内逐时气温模拟模型[J].中国农业气象,2018,39(10):644-655.[13]吴令云,吴诚鸥.实用SAS基础[M].南京:东南大学出版社,2006.[14]潘瑞炽.植物生理学[M].7版.北京:高等教育出版社,2012.[15]李力,刘玉民,王敏,等.3种北美红枫对持续高温干旱胁迫的生理响应机制[J].生态学报,2014,34(22):6471-6480.[16]XIAO F,YANG Z Q,LEE KW.Photosynthetic and physiological responses to high temperature in grapevine (Vitis vinifera L.) leaves during the seedling stage[J].Journal of Pomology & Horticultural Science,2016,92:2-10.[17]FARQUHAR G D,SHARKEY T D.Stomatal conductance and photosynthesis[J].Annual Review of Plant Physiology,1982,33:317-345.[18]ROBREDO A,PREZ-LPEZ U,HECTOR SAINZ DE LA MAZA,et al.Elevated CO2 alleviates the impact of drought on barley improving water status by lowering stomatal conductance and delaying its effects on photosynthesis[J].Environmental and Experimental Botany,2007,59:252-263.[19]张晓晓,殷小琳,李红丽,等.NaCl胁迫对不同白榆品系生物量及光合作用的影响[J].生态学报,2017,37(21):7258-7265.[20]孙宪芝,郑成淑,王秀峰.高温胁迫对切花菊‘神马’光合作用与叶绿素荧光的影响[J].应用生态学报,2008(10):2149-2154.[21]杨世琼,杨再强,王琳,等.高温高湿交互对设施番茄叶片光合特性的影响[J].生态学杂志,2018,37(1):57-63.[22]张燕红,吴永波,刘璇,等.高温和干旱胁迫对杨树幼苗光合性能和抗氧化酶系统的影响[J].东北林业大学学报,2017,45(11):32-38.[23]张大龙,宋小明,杜清洁,等.黄瓜气孔导度、水力导度的环境效应及其调控蒸腾效应[J].农业机械学报,2016,47(6):139-147.[24]韩玮,孙晨曦,赵和丽,等.高温胁迫后小白菜的补偿生长能力及防御机制[J].中国农业气象,2018,39(2):119-128.[25]严韬,朱国良,葛非凡,等.阶段性干旱胁迫对小麦光合生理特性及产量结构的影响[J].气象与减灾研究,2019,42(1):46-53.[26]FRENCH基 R J,SCHULTZ J E.Water use efficiency of wheat in a mediterranean-type environment.I.The relation between yield,water use and climate[J].Crop and Pasture Science,1984,35(6):743-764.[27]CHESEREK J J,GICHIMU B M.Drought and heat tolerance in coffee:A review[J].International Research Journal of Agricultural Science & Soil Science,2012,2(12):498-501.[28]PRANGE R K,MCRAE K B,MIDMORE D J,et al.Reduction in potato growth at high temperature:Role of photosynthesis and dark respiration[J].Am.Potato J,1990,67:357-369.[29]REYNOLDS M P,EWING E E,OWENS T G.Photosynthesis at high temperature in tuber-bearing solanum species:A comparison between accessions of contrasting heat tolerance[J].Plant Physiol,1990,93:791-797.[30]徐向东,孙艳,郭晓芹,等.高温胁迫下外源褪黑素对黄瓜幼苗光合作用及叶绿素荧光的影响[J].核农学报,2011,25(1):179-184.[31]吴雪霞,张圣美,张爱冬,等.外源褪黑素对高温胁迫下茄子幼苗光合和生理特性的影响[J].植物生理学报,2019,55(1):49-60.[32]ALBERTE R S,THORNBER J P,FISCUS E L.Water stress effects in the content and organization of chlorophyll in mesophyll and bundle sheach chlorop1asts ofmaize[J].Plant Physiology,1977,59(3):351-353.[33]WLLEKEN S H,VANCAM P W,LNZE D,et al.Ozone,sulfurdioxide,and ozone ultravio let-B have similar effecton mRNA accumulation of antioxidantgenes in Nicotianaplum baginifolia L.[J].Plant Physiology,1994,106(3):1007-1014.

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备注/Memo

第一作者简介:张源达(1995-),男,硕士研究生,研究方向为设施农业气象灾害预警。E-mail:bobozyda@163.com.责任作者:杨再强(1967-),男,博士,教授,博士生导师,现主要从事设施环境调控等研究工作。E-mail:yzq@nuist.edu.cn.基金项目:国基家重点研究开发计划资助项目(2019YFD1002202)。收稿日期:2020-03-11

更新日期/Last Update: 2021-06-09