中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
9期
2362-2367
,共6页
宋雪梅%夏超%廖洋%赵仕林%余江
宋雪梅%夏超%廖洋%趙仕林%餘江
송설매%하초%료양%조사림%여강
Ce3+%Ca2+%凤眼莲%光合作用
Ce3+%Ca2+%鳳眼蓮%光閤作用
Ce3+%Ca2+%봉안련%광합작용
Ce3+%Ca2+%Eichhornia crassipes%photosynthesis
以造成水体污染的主要水生生物之一的凤眼莲为研究对象,探究外源稀土 Ce3+对凤眼莲钙相关光合作用的影响.相比于对照组,营养液中缺钙但添加外源稀土Ce3+的条件下,凤眼莲叶绿素含量减少8.31%、叶绿体荧光产额分别减少6.14%(440nm)和3.82%(480nm)、类囊体膜上Mg2+-ATP酶和Ca2+-ATP酶分别减少1.93%和5.05%,蛋白质含量减少3.94%;但较缺钙的营养液处理组相应指标分别增加了9.89%、15.21%和3.05%、8.08%和10.26%、10.16%.添加 Ce3+的营养液处理组的凤眼莲钙相关光合作用指标同样显著提高.结果表明,Ce3+有类似于 Ca2+的特性,适量的 Ce3+可以补偿替代钙,对植物光合作用有促进效果,增加植物生物量,促进凤眼莲型水生植物的生长,对水体富营养化进程的发展起正催化作用.
以造成水體汙染的主要水生生物之一的鳳眼蓮為研究對象,探究外源稀土 Ce3+對鳳眼蓮鈣相關光閤作用的影響.相比于對照組,營養液中缺鈣但添加外源稀土Ce3+的條件下,鳳眼蓮葉綠素含量減少8.31%、葉綠體熒光產額分彆減少6.14%(440nm)和3.82%(480nm)、類囊體膜上Mg2+-ATP酶和Ca2+-ATP酶分彆減少1.93%和5.05%,蛋白質含量減少3.94%;但較缺鈣的營養液處理組相應指標分彆增加瞭9.89%、15.21%和3.05%、8.08%和10.26%、10.16%.添加 Ce3+的營養液處理組的鳳眼蓮鈣相關光閤作用指標同樣顯著提高.結果錶明,Ce3+有類似于 Ca2+的特性,適量的 Ce3+可以補償替代鈣,對植物光閤作用有促進效果,增加植物生物量,促進鳳眼蓮型水生植物的生長,對水體富營養化進程的髮展起正催化作用.
이조성수체오염적주요수생생물지일적봉안련위연구대상,탐구외원희토 Ce3+대봉안련개상관광합작용적영향.상비우대조조,영양액중결개단첨가외원희토Ce3+적조건하,봉안련협록소함량감소8.31%、협록체형광산액분별감소6.14%(440nm)화3.82%(480nm)、류낭체막상Mg2+-ATP매화Ca2+-ATP매분별감소1.93%화5.05%,단백질함량감소3.94%;단교결개적영양액처리조상응지표분별증가료9.89%、15.21%화3.05%、8.08%화10.26%、10.16%.첨가 Ce3+적영양액처리조적봉안련개상관광합작용지표동양현저제고.결과표명,Ce3+유유사우 Ca2+적특성,괄량적 Ce3+가이보상체대개,대식물광합작용유촉진효과,증가식물생물량,촉진봉안련형수생식물적생장,대수체부영양화진정적발전기정최화작용.
Influences of rare earth Ce3+on calcium-regulated photosynthesis in Eichhornia crassipes were investigated. When cultured in Ce3+-containing nutrient solution without Ca2+, the chlorophyll produced in Eichhornia crassipes was found to decrease by 8.31% compared to that of counterparts cultured in Ca2+-containing nutrient solution (control experiment). The corresponding fluorescence quantum yields of chloroplast at 440and 480nm were also decreased by 6.14%and 3.82%, respectively. Additionally, the activities of Mg2+-ATP enzyme and Ca2+-ATP enzyme, and the amount of proteins were also decreased by 1.93%, 5.05%and 3.94%, respectively. However, the above parameters related to the calcium-regulated photosynthesis increased by 9.89%, 15.21%, 3.05%, 8.08%, 10.26%and 10.16%, respectively, when compared with those of Eichhornia crassipes cultured in nutrient solution without Ca2+. The photosynthesis activity of Eichhornia crassipes cultured in the absence of Ca2+had been significantly improved by the use of rare earth Ce3+. The experimental results have shown that compared with Ca2+, Ce3+exhibited similar regulation functions on the growth of Eichhornia crassipes. In the absence of Ca2+, a suitable amount of Ce3+will promote the photosynthesis of plant by increasing the plant biomass, thus resulting in positive catalytic effects on the process of eutrophication.
