中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2009年
11期
1196-1201
,共6页
牧辉%彭新晶%戴宁%陈继%张凤君
牧輝%彭新晶%戴寧%陳繼%張鳳君
목휘%팽신정%대저%진계%장봉군
[C8mim]PF6%毒性:普通小球藻%大型蚤%斑马鱼
[C8mim]PF6%毒性:普通小毬藻%大型蚤%斑馬魚
[C8mim]PF6%독성:보통소구조%대형조%반마어
[C_8mim]PF_6%toxicity%Chlorella vulgaris%Daphnia magna%zebra fish
运用评价化学品对水生生物毒性的标准试验方法,探讨离子液体1-辛基-3-甲基-咪唑六氟磷酸盐([C_8mim]PF_6)对普通小球藻、大型蚤和斑马鱼的毒性影响.结果表明,[C_8mim]PF_6在实验浓度下,对普通小球藻的生长和叶绿素a的产生均有抑制作用,浓度越高抑制作用越明显,且对叶绿素a含量的影响更为显著.高浓度组(200mg/L)可致死部分小球藻细胞;[C_8mim]PF_6对大型蚤的48h LC50为4.47mg/L,属于高毒性;[C_8mim]PF_6对斑马鱼的96h LC50为126.08mg/L,属于低毒性.[C_8mim]PF_6对这3种水生生物的抑制率/致死率(EC50/LC50)随时间呈规律性变化.[C_8mim]PF_6与藻类的亲和性及其亲脂特性可能是其对水生生物存在潜在毒性的2个主要原因.
運用評價化學品對水生生物毒性的標準試驗方法,探討離子液體1-辛基-3-甲基-咪唑六氟燐痠鹽([C_8mim]PF_6)對普通小毬藻、大型蚤和斑馬魚的毒性影響.結果錶明,[C_8mim]PF_6在實驗濃度下,對普通小毬藻的生長和葉綠素a的產生均有抑製作用,濃度越高抑製作用越明顯,且對葉綠素a含量的影響更為顯著.高濃度組(200mg/L)可緻死部分小毬藻細胞;[C_8mim]PF_6對大型蚤的48h LC50為4.47mg/L,屬于高毒性;[C_8mim]PF_6對斑馬魚的96h LC50為126.08mg/L,屬于低毒性.[C_8mim]PF_6對這3種水生生物的抑製率/緻死率(EC50/LC50)隨時間呈規律性變化.[C_8mim]PF_6與藻類的親和性及其親脂特性可能是其對水生生物存在潛在毒性的2箇主要原因.
운용평개화학품대수생생물독성적표준시험방법,탐토리자액체1-신기-3-갑기-미서륙불린산염([C_8mim]PF_6)대보통소구조、대형조화반마어적독성영향.결과표명,[C_8mim]PF_6재실험농도하,대보통소구조적생장화협록소a적산생균유억제작용,농도월고억제작용월명현,차대협록소a함량적영향경위현저.고농도조(200mg/L)가치사부분소구조세포;[C_8mim]PF_6대대형조적48h LC50위4.47mg/L,속우고독성;[C_8mim]PF_6대반마어적96h LC50위126.08mg/L,속우저독성.[C_8mim]PF_6대저3충수생생물적억제솔/치사솔(EC50/LC50)수시간정규률성변화.[C_8mim]PF_6여조류적친화성급기친지특성가능시기대수생생물존재잠재독성적2개주요원인.
Three standard test methods for evaluating the toxicity of chemicals to aquatic organisms were applied to assess the toxic effects of l-octyl-3-methylimidazolium PF_6([C_8mim]PF_6)on the three aquatic organisms: Chlorella vulgaris, Daphnia magna and zebra fish. Growth and chlorophyll a content of C. vulgaris were inhibited in the experimental content of [C_8mim]PF_6, the inhibiting effect increased significantly with increasing concentrations, and the toxic effects on chlorophyll a content were stronger than that of growth. The C. vulgaris cell even would be lethal in the higher concentration group (200mg/L). The toxic effects of [C_8mim] PF_6 was high-toxic to Daphnia magna, while was low-toxic to zebra fish, and the 48h LC_(50) and 96h LC_(50) was 4.47mg/L and 126.08mg/L, respectively. EC50/LC50 changed regularly with the test time. Maybe the two main reasons leading to the potential threat to the aquatic organisms were the affinity of [C_8mim]PF_6 with algae and lipophilic property itself.