华北农学报
華北農學報
화북농학보
ACTA AGRICULTURAE BOREALI-SINICA
2010年
1期
121-125
,共5页
李玉欣%师长海%乔匀周%董宝娣%廉诗启%刘孟雨%刘海培
李玉訢%師長海%喬勻週%董寶娣%廉詩啟%劉孟雨%劉海培
리옥흔%사장해%교균주%동보제%렴시계%류맹우%류해배
蒸腾效率%光合特性%蒸腾%气孔与非气孔因素
蒸騰效率%光閤特性%蒸騰%氣孔與非氣孔因素
증등효솔%광합특성%증등%기공여비기공인소
Transpiration efficiency%Photosynthesis characteristic%Transpiration%Stomatal and non-stomatal factor
通过盆栽试验,研究了两种生态型冬小麦(石家庄8号和洛旱2号)在三种土壤水分条件下(L:田间持水量的60%~65%;M:田间持水量的70%~75%;H:田间持水量的80%~85%)蒸腾效率的变化及其生理机制.结果表明:随着土壤水分的降低,植株叶片水势降低,根冠比增加,两个品种间没有显著差异.土壤水分的降低,使植株生物量减少,蒸腾耗水减少,但蒸腾效率提高.L处理下石家庄8号和洛旱2号植株水平的蒸腾效率分别提高119.0%和62.2%.植株叶片光合速率与蒸腾速率随土壤水分的减少不断下降,但叶片水平的蒸腾效率提高,且与植株水平蒸腾效率呈极显著正相关(R~2=0.96).气孔导度随土壤水分的减少而降低,并与蒸腾速率呈极显著正相关(R~2=0.97),表明蒸腾主要受气孔因素调节;光合速率随土壤水分减少而降低,但胞间CO_2浓度升高,表明光合主要受非气孔因素调节,这种调节机制使得植株在干旱胁迫下更高效利用水分.试验结果初步揭示:光合与蒸腾调节机制的差异构成了试验品种在干旱下蒸腾效率提高的生理基础.
通過盆栽試驗,研究瞭兩種生態型鼕小麥(石傢莊8號和洛旱2號)在三種土壤水分條件下(L:田間持水量的60%~65%;M:田間持水量的70%~75%;H:田間持水量的80%~85%)蒸騰效率的變化及其生理機製.結果錶明:隨著土壤水分的降低,植株葉片水勢降低,根冠比增加,兩箇品種間沒有顯著差異.土壤水分的降低,使植株生物量減少,蒸騰耗水減少,但蒸騰效率提高.L處理下石傢莊8號和洛旱2號植株水平的蒸騰效率分彆提高119.0%和62.2%.植株葉片光閤速率與蒸騰速率隨土壤水分的減少不斷下降,但葉片水平的蒸騰效率提高,且與植株水平蒸騰效率呈極顯著正相關(R~2=0.96).氣孔導度隨土壤水分的減少而降低,併與蒸騰速率呈極顯著正相關(R~2=0.97),錶明蒸騰主要受氣孔因素調節;光閤速率隨土壤水分減少而降低,但胞間CO_2濃度升高,錶明光閤主要受非氣孔因素調節,這種調節機製使得植株在榦旱脅迫下更高效利用水分.試驗結果初步揭示:光閤與蒸騰調節機製的差異構成瞭試驗品種在榦旱下蒸騰效率提高的生理基礎.
통과분재시험,연구료량충생태형동소맥(석가장8호화락한2호)재삼충토양수분조건하(L:전간지수량적60%~65%;M:전간지수량적70%~75%;H:전간지수량적80%~85%)증등효솔적변화급기생리궤제.결과표명:수착토양수분적강저,식주협편수세강저,근관비증가,량개품충간몰유현저차이.토양수분적강저,사식주생물량감소,증등모수감소,단증등효솔제고.L처리하석가장8호화락한2호식주수평적증등효솔분별제고119.0%화62.2%.식주협편광합속솔여증등속솔수토양수분적감소불단하강,단협편수평적증등효솔제고,차여식주수평증등효솔정겁현저정상관(R~2=0.96).기공도도수토양수분적감소이강저,병여증등속솔정겁현저정상관(R~2=0.97),표명증등주요수기공인소조절;광합속솔수토양수분감소이강저,단포간CO_2농도승고,표명광합주요수비기공인소조절,저충조절궤제사득식주재간한협박하경고효이용수분.시험결과초보게시:광합여증등조절궤제적차이구성료시험품충재간한하증등효솔제고적생리기출.
Pot experiment was conducted to study the response of transpiration efficiency of two ecotypes of winter wheat varieties(Shijiazhuang8;Luohan2) and its physiological mechanism to three different soil moisture conditions(L:60%-65% of field capacity;M:70%-75% of field capacity;H:80%-85% of field capacity).The results showed that leaf water potential decreased,and the root shoot ratio increased with the decreasing of soil moisture,but there was no significant difference between the two varieties.Lowering soil water content resulted in a reduction of biomass and water use for transpiration,however the transpiration efficiency at plant level was increased,it was increased by 119.0% and 62.2% for Shijiazhuang8 and Luohan2 in L treatment. With soil moisture decreasing,leaf photosynthetic rate and transpiration rate was reduced continuously,but transpiration efficiency at leaf level increased.There was a significantly positive correlation between the transpiration efficiency at plant level and at leaf level(R~2=0.96).Stomatal conductance was reduced with the soil moisture lowing,and it significantly positive related to transpiration rate(R~2=0.97),which indicated that transpiration was mainly regulated by stomatal factor;while photosynthetic rate reduced and intercellular CO_2 concentration raised,which indicated that photosynthesis was mainly adjusted by non stomatal factors.Such regulating mechanism makes more efficient use of water in the plant under lower level of soil moisture conditions.The preliminary results suggested that the different regulatory way of photosynthesis and transpiration constitute the physiological basis of higher transpiration efficiency under low soil moisture conditions.
