中国农业气象
中國農業氣象
중국농업기상
AGRICULTURAL METEOROLOGY
2009年
4期
547-552
,共6页
申双和%张雪松%邓爱娟%李永秀%谢轶嵩
申雙和%張雪鬆%鄧愛娟%李永秀%謝軼嵩
신쌍화%장설송%산애연%리영수%사질숭
净光合速率%蒸腾速率%水分利用效率%CO_2响应%冬小麦
淨光閤速率%蒸騰速率%水分利用效率%CO_2響應%鼕小麥
정광합속솔%증등속솔%수분이용효솔%CO_2향응%동소맥
Net photosynthesis rate%Transpiration rate%Leaf - level water use efficiency%Response to CO_2 concentration%Winter wheat
大气CO_2浓度升高会给地球生态系统带来一系列环境问题,植物能够通过气孔调节光合作用和蒸腾作用,对环境变化做出响应.本研究以评价植物光合作用和蒸腾作用相互关系的指标水分利用效率为切入点,以冬小麦为研究对象,在灌浆期将冠层按距离地面高度分上、中、下三层,采用LI-6400便携式光合作用测量系统测定数据对各层叶片光合、蒸腾特性随CO_2浓度变化的响应进行了对比分析.结果表明:随着CO_2浓度的增加,(1)各层叶片净光合速率呈直角双曲线形式增加,不同层叶片之间净光合速率对CO_2浓度响应的差异不显著(P>0.05),但各层羧化速率、光合能力、光呼吸表现不一致,均为上层>中层>下层;(2)各层叶片蒸腾速率总体下降,不同层叶片之间蒸腾速率对CO_2浓度响应的差异显著(P<0.01),蒸腾速率的变化是气孔导度随CO_2浓度变化的结果,两者呈显著正相关(P<0.01);(3)净光合速率提高与蒸腾速率降低,共同使叶片水平水分利用效率提高.研究工作有利于加深气候变化对农业影响的认识,也为农田生态系统碳、水耦合循环的多层模型研究奠定基础.
大氣CO_2濃度升高會給地毬生態繫統帶來一繫列環境問題,植物能夠通過氣孔調節光閤作用和蒸騰作用,對環境變化做齣響應.本研究以評價植物光閤作用和蒸騰作用相互關繫的指標水分利用效率為切入點,以鼕小麥為研究對象,在灌漿期將冠層按距離地麵高度分上、中、下三層,採用LI-6400便攜式光閤作用測量繫統測定數據對各層葉片光閤、蒸騰特性隨CO_2濃度變化的響應進行瞭對比分析.結果錶明:隨著CO_2濃度的增加,(1)各層葉片淨光閤速率呈直角雙麯線形式增加,不同層葉片之間淨光閤速率對CO_2濃度響應的差異不顯著(P>0.05),但各層羧化速率、光閤能力、光呼吸錶現不一緻,均為上層>中層>下層;(2)各層葉片蒸騰速率總體下降,不同層葉片之間蒸騰速率對CO_2濃度響應的差異顯著(P<0.01),蒸騰速率的變化是氣孔導度隨CO_2濃度變化的結果,兩者呈顯著正相關(P<0.01);(3)淨光閤速率提高與蒸騰速率降低,共同使葉片水平水分利用效率提高.研究工作有利于加深氣候變化對農業影響的認識,也為農田生態繫統碳、水耦閤循環的多層模型研究奠定基礎.
대기CO_2농도승고회급지구생태계통대래일계렬배경문제,식물능구통과기공조절광합작용화증등작용,대배경변화주출향응.본연구이평개식물광합작용화증등작용상호관계적지표수분이용효솔위절입점,이동소맥위연구대상,재관장기장관층안거리지면고도분상、중、하삼층,채용LI-6400편휴식광합작용측량계통측정수거대각층협편광합、증등특성수CO_2농도변화적향응진행료대비분석.결과표명:수착CO_2농도적증가,(1)각층협편정광합속솔정직각쌍곡선형식증가,불동층협편지간정광합속솔대CO_2농도향응적차이불현저(P>0.05),단각층최화속솔、광합능력、광호흡표현불일치,균위상층>중층>하층;(2)각층협편증등속솔총체하강,불동층협편지간증등속솔대CO_2농도향응적차이현저(P<0.01),증등속솔적변화시기공도도수CO_2농도변화적결과,량자정현저정상관(P<0.01);(3)정광합속솔제고여증등속솔강저,공동사협편수평수분이용효솔제고.연구공작유리우가심기후변화대농업영향적인식,야위농전생태계통탄、수우합순배적다층모형연구전정기출.
Elevated atmospheric CO_2 concentration will bring about a series of environmental problems to earth ecosystem. Plant photosynthesis and transpiration can response to the environmental change through stomatal regulation. The water use efficiency ( WUE) was taken as the breakthrough point to evaluate the correlation of plant photosynthesis and transpiration with study object of winter wheat. The responses of leaf - level photosynthesis and transpiration to CO_2 concentration enrichment were measured by using a LI - 6400 portable photosynthesis system after dividing the canopy height into three layers of top, middle and bottom, during the grain filling stage in 2008. The results showed that with the CO_2 concentration enrichment, the leaf net photosynthesis rate of every layer had a rectangular hyperbolic increase with no standard difference ( P > 0. 05), while the parameters of photosynthetic characteristics, including carboxylation efficiency, maximum net photosynthesis rate and respiration rate decreased with canopy depth. The both leaf transpiration rate and stomatal conductance of each layer decreased with standard difference ( P <0. 01) , which had a significant relationship ( P <0. 01). The net photosynthetic rate increased and transpiration rate decreased which led to an increase in leaf - level WUE due to CO_2 enrichment.