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三苯基氯化锡(TPTC)对孔石莼光合作用及生长的影响
李钧1, 于仁诚1, 李正炎2, 颜天1, 周名江1
1.中国科学院海洋研究所 青岛266071;2.青岛海洋大学环保中心 青岛266003
摘要:
于1995年5月在青岛太平角采集孔石莼,研究了三苯基氯化锡(TPTC)对其光合、呼吸、色素含量及生长的影响。结果表明,低浓度的TPTC(≤2μg/L)对光合过程无明显作用,高浓度的TPTC(>2μg/L)能抑制光合作用,当TPTC浓度达到16μg/L时,光合过程基本停止,TPTC对光合作用的半数效应浓度为96hEC50=7.39μg/L。低浓度的TPTC就能够使呼吸速率加快,但TPTC浓度达到8μg/L后,呼吸速率开始下降。1μg/L的TPTC能促进叶绿素a的合成,当TPTC浓度在2μg/L以上时,叶绿素a含量下降,TPTC对叶绿素a含量的半数效应浓度为96hEC50=12.99μg/L。TPTC能抑制藻片的生长,其对藻片半径增长和藻体生物量增加的半数效应浓度为96hEC50=4.01μg/L和10.11μg/L。
关键词:  三苯基氯化锡(TPTC)  孔石莼  光合  呼吸  叶绿素a  生长
DOI:10.11693/hyhz200004010010
分类号:
基金项目:国家自然科学基金资助项目,99290600号
EFFECTS OF TPTC ON PHOTOSYNTHESIS AND GROWTH OF MACROALGAE, ULVA PERTUSA
LI Jun1, YU Ren-cheng1, LI Zheng-yan2, YAN Tian1, ZHOU Ming-jiang1
1.Institute of Oceanology, The Chinese Academy of Sciences, Qingdao266071;2.Center of Environmental Protection, Ocean University of Qingdao, Qingdao266003
Abstract:
Macroalgae are important components of primary productivity in coastal areas. However, there is little knowledge about the toxic effects of organotin on macroalgae. In 1995, Ulva pertusa were collected from Taipingjiao, Qingdao study the toxic effects of Triphenyltin chloride (TPTC) on its photosynthesis, respiration, content of Chlorophyll-a and growth. TPTC showed no effects on photosynthesis process of Ulva pertusa until TPTC concentration reached 2μg/L, and the photosynthesis was almost totally inhibited at 16μg/L. The calculated value of 96hEC50 for photosynthesis inhibition was 7.39μg/L. Respiration rate initially increased with low TPTC exposure level, and started to decrease from 8μg/L. But the respiration rate at 16μg/L was still higher than that of the control. Chlorophyll-a content was slightly higher than that of the control when TPTC concentration was 1μg/L, it decreased with TPTC level of 96hEC50=12.99μg/L. TPTC could inhibit the growth of Ulva pertusa both in size (96hEC50=4.01μg/L) and biomass (96hEC50=10.11μg/L). During the experiment, both respiration rate and content of Chlorophyll-a increased at low concentration of TPTC, which reflected a state of “physiological excitement”. This was probably due to the mechanism of self-protection of removing the pollutant. Compared to respiration process, which did not show decreasing trend until 16μg/L, the photosynthesis process was more sensitive to TPTC. This might reflect the difference of sensitivity in chloroplast and mitochondria. Results show that the resistance of macroalgae to TPTC is 3–5 times higher than that of microalgae according to the toxicity data published before.
Key words:  Triphenyltin chloride (TPTC), Ulva pertusa, Photosynthesis, Respiration, Chlorophyll-a, Growth
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