华北农学报
華北農學報
화북농학보
Acta Agriculturae Boreali-Sinica
2015年
4期
150-156
,共7页
郑阳霞%贾松涛%赵英鹏%张伟伟%孙远秀%邱爽
鄭暘霞%賈鬆濤%趙英鵬%張偉偉%孫遠秀%邱爽
정양하%가송도%조영붕%장위위%손원수%구상
西瓜%铝胁迫%光合特性%叶绿素荧光参数
西瓜%鋁脅迫%光閤特性%葉綠素熒光參數
서과%려협박%광합특성%협록소형광삼수
Citrullus lanatus%Aluminum stress%Photosynthetic characteristics%Chlorophyll fluorescence parameters
为了探明铝胁迫对西瓜光合特性的影响。以西瓜品种早蜜王(ZM)、早春红玉(HY)为材料,研究不同浓度铝(0,250,500,1000,1500μmol /L)处理下西瓜幼苗生长指标、叶绿素含量、光合特性及叶绿素荧光参数的变化。随铝浓度升高,铝处理对两西瓜品种幼苗根长及生物量的影响基本都表现为“先促后抑”,且对 ZM的抑制作用较 HY 更明显。对光合作用的影响主要有以下3个方面:铝处理下 HY 叶绿素含量均高于对照,ZM 叶绿素含量仅在低浓度(250μmol /L)铝处理下高于对照;HY 叶绿素 a /b 随铝浓度升高呈下降趋势;Al3+≤500μmol /L 的铝处理下,ZM 气孔导度、胞间 CO2浓度、净光合速率、蒸腾速率受影响程度较 HY 明显,在 Al3+≥1000μmol /L 处理下,HY、ZM的4个参数均呈降低趋势。在大于250μmol /L 的铝处理下,两西瓜品种在铝胁迫下荧光参数变化表现为:初始荧光(Fo)、最大荧光(Fm)、潜在光化学活性(Fv /Fo)、最大光化学效率(Fv /Fm)和实际量子产量 Y(Ⅱ)下降,非光化学猝灭(NPQ)上升,光化学猝灭(qP)与 PSⅡ电子传递速率(ETR)降低。HY 较 ZM 耐铝在荧光参数变化上表现为:低浓度胁迫(250μmol /L)下,Fo、Fm、Fv /Fo、Fv /Fm 更加稳定;电子传递速率受铝处理影响较小,非光化学猝灭(NPQ)在不同浓度铝处理下较为恒定,即能够维持恒定的光保护能力。
為瞭探明鋁脅迫對西瓜光閤特性的影響。以西瓜品種早蜜王(ZM)、早春紅玉(HY)為材料,研究不同濃度鋁(0,250,500,1000,1500μmol /L)處理下西瓜幼苗生長指標、葉綠素含量、光閤特性及葉綠素熒光參數的變化。隨鋁濃度升高,鋁處理對兩西瓜品種幼苗根長及生物量的影響基本都錶現為“先促後抑”,且對 ZM的抑製作用較 HY 更明顯。對光閤作用的影響主要有以下3箇方麵:鋁處理下 HY 葉綠素含量均高于對照,ZM 葉綠素含量僅在低濃度(250μmol /L)鋁處理下高于對照;HY 葉綠素 a /b 隨鋁濃度升高呈下降趨勢;Al3+≤500μmol /L 的鋁處理下,ZM 氣孔導度、胞間 CO2濃度、淨光閤速率、蒸騰速率受影響程度較 HY 明顯,在 Al3+≥1000μmol /L 處理下,HY、ZM的4箇參數均呈降低趨勢。在大于250μmol /L 的鋁處理下,兩西瓜品種在鋁脅迫下熒光參數變化錶現為:初始熒光(Fo)、最大熒光(Fm)、潛在光化學活性(Fv /Fo)、最大光化學效率(Fv /Fm)和實際量子產量 Y(Ⅱ)下降,非光化學猝滅(NPQ)上升,光化學猝滅(qP)與 PSⅡ電子傳遞速率(ETR)降低。HY 較 ZM 耐鋁在熒光參數變化上錶現為:低濃度脅迫(250μmol /L)下,Fo、Fm、Fv /Fo、Fv /Fm 更加穩定;電子傳遞速率受鋁處理影響較小,非光化學猝滅(NPQ)在不同濃度鋁處理下較為恆定,即能夠維持恆定的光保護能力。
위료탐명려협박대서과광합특성적영향。이서과품충조밀왕(ZM)、조춘홍옥(HY)위재료,연구불동농도려(0,250,500,1000,1500μmol /L)처리하서과유묘생장지표、협록소함량、광합특성급협록소형광삼수적변화。수려농도승고,려처리대량서과품충유묘근장급생물량적영향기본도표현위“선촉후억”,차대 ZM적억제작용교 HY 경명현。대광합작용적영향주요유이하3개방면:려처리하 HY 협록소함량균고우대조,ZM 협록소함량부재저농도(250μmol /L)려처리하고우대조;HY 협록소 a /b 수려농도승고정하강추세;Al3+≤500μmol /L 적려처리하,ZM 기공도도、포간 CO2농도、정광합속솔、증등속솔수영향정도교 HY 명현,재 Al3+≥1000μmol /L 처리하,HY、ZM적4개삼수균정강저추세。재대우250μmol /L 적려처리하,량서과품충재려협박하형광삼수변화표현위:초시형광(Fo)、최대형광(Fm)、잠재광화학활성(Fv /Fo)、최대광화학효솔(Fv /Fm)화실제양자산량 Y(Ⅱ)하강,비광화학졸멸(NPQ)상승,광화학졸멸(qP)여 PSⅡ전자전체속솔(ETR)강저。HY 교 ZM 내려재형광삼수변화상표현위:저농도협박(250μmol /L)하,Fo、Fm、Fv /Fo、Fv /Fm 경가은정;전자전체속솔수려처리영향교소,비광화학졸멸(NPQ)재불동농도려처리하교위항정,즉능구유지항정적광보호능력。
In the study,two watermelon varieties Zaomiwang (ZM)and Zaochunhongyu (HY)seedlings were used as materials to investigate the effect of aluminum(Al)on growth and physiological characteristics under differ-ent Al concentrations (0,250,500,1 000,1 500 μmol /L)treatment in order to find out the impact of aluminum stress on photosynthetic characteristics of watermelon.Changes in root length and biomass results showed that ZM was more sensitive to Al than HY.Effects on photosynthesis for the followed three aspects:Chlorophyll content of HY increased in the Al treatment.Chlorophyll content of ZM was higher than contrast only when Al concentration was 250 μmol /L.Chlorophyll a /b content of HY intended to decrease as long as the Al concentration increased;In the Al treatment,when concentration lower than 500 μmol /L the stomatal conductance (Gs),intercellular CO2 con-centration (Ci),net photosynthetic rate (Pn)and transpiration rate (Tr)of ZM was effected more obviously than those of HY.When Al concentration was above 1 000 μmol /L,the value of these four items all intended to fall down;Changes of Chlorophyll fluorescence in these two watermelon variety in the Al treatment (without Al3 + =250μmol /L concentration)were as follow:original fluorescence (Fo),maximum fluorescence (Fm),potential photo-chemical efficiency (Fv /Fo),photochemical maximum efficiency of PS Ⅱ (Fv /Fm)and the ability of leaves to transform energy Y(Ⅱ)decreased,while non-photochemical quenching (NPQ)increased,and leaves maintained a high actinic light energy distribution by adjusting the heat dissipation;In addition,photochemical quenching coeffi-cient (qP)and electron transport rate (ETR)decreased.At Al3 +≤250 μmol /L concentration,the four parameters of HY:Fo,Fm,Fv /Fo,Fv /Fm was more stable;with aluminum concentration increases,the electron transfer rate was less affected,NPQ relatively constant,that is able to maintain a constant light protection.