华北农学报
華北農學報
화북농학보
ACTA AGRICULTURAE BOREALI-SINICA
2013年
5期
144-148
,共5页
干旱%干热风%高温%光合%蒸腾%小麦
榦旱%榦熱風%高溫%光閤%蒸騰%小麥
간한%간열풍%고온%광합%증등%소맥
Drought%Dry-hot wind%High temperature%Photosynthesis%Transpiration%Wheat
采用人工模拟干热风方法,对灌浆期冬小麦进行重度干热风(重)、轻度干热风(轻)和无干热风(CK)平行对比试验。结果发现:重度干热风对旗叶光合速率(An)、蒸腾速率(Tr)和气孔导度(Gs)的胁迫指数(SI)为0.88,0.68,0.83,轻度干热风对An、Tr和Gs的SI为0.32,0.19,0.39;在重-轻-CK3个梯度上,Gs-An和Gs-Tr均有极显著正相关关系;轻干热风对胞间CO2浓度(Ci)无显著影响,重干热风下Ci显著升高。综合分析认为:轻、重干热风对灌浆期旗叶光合蒸腾均有显著抑制作用,重干热风抑制作用要显著强于轻干热风;干热风引起气孔部分闭合Gs减小是光合蒸腾受抑制的主要原因,重干热风下光合还明显受到非气孔限制;非气孔因素是导致同等干热风条件下光合受抑制程度大于蒸腾的原因。
採用人工模擬榦熱風方法,對灌漿期鼕小麥進行重度榦熱風(重)、輕度榦熱風(輕)和無榦熱風(CK)平行對比試驗。結果髮現:重度榦熱風對旂葉光閤速率(An)、蒸騰速率(Tr)和氣孔導度(Gs)的脅迫指數(SI)為0.88,0.68,0.83,輕度榦熱風對An、Tr和Gs的SI為0.32,0.19,0.39;在重-輕-CK3箇梯度上,Gs-An和Gs-Tr均有極顯著正相關關繫;輕榦熱風對胞間CO2濃度(Ci)無顯著影響,重榦熱風下Ci顯著升高。綜閤分析認為:輕、重榦熱風對灌漿期旂葉光閤蒸騰均有顯著抑製作用,重榦熱風抑製作用要顯著彊于輕榦熱風;榦熱風引起氣孔部分閉閤Gs減小是光閤蒸騰受抑製的主要原因,重榦熱風下光閤還明顯受到非氣孔限製;非氣孔因素是導緻同等榦熱風條件下光閤受抑製程度大于蒸騰的原因。
채용인공모의간열풍방법,대관장기동소맥진행중도간열풍(중)、경도간열풍(경)화무간열풍(CK)평행대비시험。결과발현:중도간열풍대기협광합속솔(An)、증등속솔(Tr)화기공도도(Gs)적협박지수(SI)위0.88,0.68,0.83,경도간열풍대An、Tr화Gs적SI위0.32,0.19,0.39;재중-경-CK3개제도상,Gs-An화Gs-Tr균유겁현저정상관관계;경간열풍대포간CO2농도(Ci)무현저영향,중간열풍하Ci현저승고。종합분석인위:경、중간열풍대관장기기협광합증등균유현저억제작용,중간열풍억제작용요현저강우경간열풍;간열풍인기기공부분폐합Gs감소시광합증등수억제적주요원인,중간열풍하광합환명현수도비기공한제;비기공인소시도치동등간열풍조건하광합수억제정도대우증등적원인。
Dry-hot wind with high air temperature ,low moisture and specified wind is one of weather disasters for wheat in the north of China .Photosynthesis and transpiration of flag leaf play important roles in grain-filling of wheat.Photosynthetic rate(An),transpiration rate(Tr),stomatal conductance(Gs),and intercellular CO2 concentra-tion( Ci ) were measured before and after sever and mild dry-hot wind generated by an experimental device .The re-sults show that:the stress indexes(SI) of An,Tr and Gs were 0.88,0.68 and 0.83 under sever dry-hot wind,and were 0.32,0.19 and 0.18 under mild dry-hot wind;Gs showed significant positive correlations with An and Tr under sever,mild,and none dry-hot wind;Ci significantly increased under sever dry-hot wind,however insignificantly var-ied under mild dry-hot wind .Some conclusions were drawn that:both photosynthesis and transpiration can be signifi-cantly stressed by dry-hot wind ,and more significantly stressed by sever dry-hot wind;larger stomatal limitation with less Gs was the main cause for decreases of An and Trunder dry-hot wind,moreover,nonstomatal limitation showed significant influence on An under sever dry-hot wind;nonstomatal factors lead to the larger SI of An than that of Tr under the same dry-hot wind.