淮北师范大学学报:自然科学版
淮北師範大學學報:自然科學版
회북사범대학학보:자연과학판
Journal of Huaibei Coal Industry Teachers College(Natural Science edition)
2012年
1期
56-62
,共7页
李永华%钱宝云%刘彩凤%张铮%史刚荣
李永華%錢寶雲%劉綵鳳%張錚%史剛榮
리영화%전보운%류채봉%장쟁%사강영
镉%蓖麻%光合色素%气体交换%光谱特征
鎘%蓖痳%光閤色素%氣體交換%光譜特徵
력%비마%광합색소%기체교환%광보특정
cadmium%castor bean%photosynthetic pigment%gas exchange%spectral properties
以蓖麻为研究对象,通过营养液培养试验,探讨蓖麻生长和光合特性对不同浓度镉胁迫的响应。研究结果表明,10-50μmol·L^-1Cd对蓖麻幼苗生长、光合作用、光合色素含量、叶绿素荧光参数以及反射光谱特征均具有明显抑制作用。根系生物量随着镉浓度的增加而逐渐降低,但地上部分生物量却不表现出浓度效应,从而导致植株的根冠比显著增大,随着镉浓度的升高,光合速率、气孔导度和蒸腾速率显著降低,而胞间CO2浓度和叶绿素a/b比值(Ctda/b)则在10μmol·L^-1Cd处理下升高,随后下降至对照水平。光合色素含量(叶绿素a、叶绿素b、叶绿素a+b、类胡萝卜素)、时绿素荧光参数(凡Fv/Fm、Fv/F0及ФPSⅡ)以及Red/Green和SIPI在不同浓度Cd处理之间均无显著差异。镉胁迫导致光合速率降低的原因与cd浓度密切相关。在低浓度下,光合速率的降低主要是由于光合色素含量下降、PSⅡ性中心受到抑制等非气孔因素所致;而在高浓度镉胁迫下,光合速率的降低受气孔限制因素和非气孔限制因素的双重影响。
以蓖痳為研究對象,通過營養液培養試驗,探討蓖痳生長和光閤特性對不同濃度鎘脅迫的響應。研究結果錶明,10-50μmol·L^-1Cd對蓖痳幼苗生長、光閤作用、光閤色素含量、葉綠素熒光參數以及反射光譜特徵均具有明顯抑製作用。根繫生物量隨著鎘濃度的增加而逐漸降低,但地上部分生物量卻不錶現齣濃度效應,從而導緻植株的根冠比顯著增大,隨著鎘濃度的升高,光閤速率、氣孔導度和蒸騰速率顯著降低,而胞間CO2濃度和葉綠素a/b比值(Ctda/b)則在10μmol·L^-1Cd處理下升高,隨後下降至對照水平。光閤色素含量(葉綠素a、葉綠素b、葉綠素a+b、類鬍蘿蔔素)、時綠素熒光參數(凡Fv/Fm、Fv/F0及ФPSⅡ)以及Red/Green和SIPI在不同濃度Cd處理之間均無顯著差異。鎘脅迫導緻光閤速率降低的原因與cd濃度密切相關。在低濃度下,光閤速率的降低主要是由于光閤色素含量下降、PSⅡ性中心受到抑製等非氣孔因素所緻;而在高濃度鎘脅迫下,光閤速率的降低受氣孔限製因素和非氣孔限製因素的雙重影響。
이비마위연구대상,통과영양액배양시험,탐토비마생장화광합특성대불동농도력협박적향응。연구결과표명,10-50μmol·L^-1Cd대비마유묘생장、광합작용、광합색소함량、협록소형광삼수이급반사광보특정균구유명현억제작용。근계생물량수착력농도적증가이축점강저,단지상부분생물량각불표현출농도효응,종이도치식주적근관비현저증대,수착력농도적승고,광합속솔、기공도도화증등속솔현저강저,이포간CO2농도화협록소a/b비치(Ctda/b)칙재10μmol·L^-1Cd처리하승고,수후하강지대조수평。광합색소함량(협록소a、협록소b、협록소a+b、류호라복소)、시록소형광삼수(범Fv/Fm、Fv/F0급ФPSⅡ)이급Red/Green화SIPI재불동농도Cd처리지간균무현저차이。력협박도치광합속솔강저적원인여cd농도밀절상관。재저농도하,광합속솔적강저주요시유우광합색소함량하강、PSⅡ성중심수도억제등비기공인소소치;이재고농도력협박하,광합속솔적강저수기공한제인소화비기공한제인소적쌍중영향。
To study the growth and photosynthetic response of castor bean to cadmium (Cd) stress, the pigment, chlorophyll fluorescence, gas exchange, and spectral properties of castor bean seedlings treated with different Cdconcentrations (10, 25 and 50 μmol · L^-1 CdCh) were investigated by hydroponics culture experiment. The results showed that 10-50 μmol· L^-1Cd had a significant inhibitory effect on growth, photosynthesis, pigmentcontents and spectral reflectance in castor bean seedling. The root biomass reduced with the increasing of Cd concentration. However, the shoot biomass showed a concentration independent manner, as a result, leading to an increase in the root/shoot ratio, especially at low Cd levels. With the Cd concentration increased, thephotosynthetic rate (Pn), stomatal conductance and transpiration rate were significantly reduced, while the intercellular CO2 concentration and chlorophyll a/b ratio firstly increased at 10 μmol· L^-1 Cd treatment and thendeclined to the control levels. No significant difference in pigment contents (hlorophyll a, chlorophyll b, chlorophyll a+b, carotenoids), chlorophyll fluorescence parameters (Fv/Fm, Fv/F0 and ФPS Ⅱ), as well as Red/Green and SIPI was observed between 10 μmol · L^-1, 25 μmol · L^-1 and 50 μmol · L^-1 Cd treatments. It isconcluded that the mechanism of Cd - induced decline in Pn in castor bean may be concentration dependent. At low Cd levels, the decrease in Pn mainly resulted from the nonestomatal factors such as the reduction of pigment contents, and destruction of the reactive center in photosystem Ⅱ, whereas, at high Cd levels, both the stomatal and nonestomatal limitation is involved.
