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首页> 外文期刊>Ecotoxicology and Environmental Safety >Responses of Lyngbya wollei to algaecide exposures and a risk characterization associated with their use
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Responses of Lyngbya wollei to algaecide exposures and a risk characterization associated with their use

机译:狼蛛对藻类杀菌剂暴露的反应以及与使用有关的风险特征

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To make informed decisions regarding management of noxious algal growths, water resource managers require information on responses of target and non-target species to algaecide exposures. Periodic treatments of Phycomycin (R)-SCP (sodium carbonate peroxyhydrate) followed by Algimycin (R)-PWF (gluconate and citrate chelated copper) to control Lyngbya wollei growths for ten years provided an opportunity for a risk evaluation of treated coves in Lay Lake, AL. Abiotic sediment characteristics (acid soluble copper concentrations, acid volatile sulfides, percent organic matter and cation exchange capacity) and survival of Hyalella azteca and Chironomus dilutus were measured in sediment samples from treated and untreated coves to assess the bioavailability of potential copper-residuals. In laboratory studies to seek a more effective approach for managing the growth of Lyngbya, six algaecide treatments consisting of combinations of copper-based algaecides (Cutrine (R)-Ultra, Clearigate and Algimycin (R)-PWF), a hydrogen peroxide based algaecide (Phycomycin (R)-SCP) and an adjuvant (Cide-Kick II) were assessed for efficacy in controlling L. wollei sampled from Lay Lake. The most efficient algaecide treatment was determined based on post-treatment algal wet weight and visual observations of responses to exposures. To estimate the margin of safety for non-target organisms, Pimephales promelas was exposed to the most efficacious treatment and a treatment of Phycomycin (R)-SCP followed by Algimycin (R)-PWF. Results from sediment experiments demonstrated that there were no measureable copper residuals and no adverse effects on H. azteca and C. dilutus from sediments following ten years of copper-based algaecide treatments. Based on the laboratory results, a treatment of Phycomycin (R)-SCP at 10.1 mg H2O2/L followed by Cide-Kick II at 0.2 mg/L and Algimycin (R)-PWF at 0.26 mg Cu/L could control the growth of Lyngbya wollei from Lay Lake, AL and enhance the margin of safety for non-target species (e.g. P. promelas). (C) 2015 Elsevier Inc. All rights reserved.
机译:为了就有害藻类生长的管理做出明智的决定,水资源管理者需要有关目标和非目标物种对除藻剂暴露的响应的信息。定期进行Phycomycin(SCP)-SCP(碳酸钠过氧化氢钠)治疗,然后再使用Algimycin(R)-PWF(葡萄糖酸和柠檬酸盐螯合铜)治疗以控制Lyngbya wollei生长十年,这为在莱湖治疗小海湾的风险进行评估提供了机会。 ,AL。在来自处理过和未处理过的海湾的沉积物样品中,测量了非生物沉积物特征(酸可溶性铜浓度,酸挥发性硫化物,有机物百分数和阳离子交换能力)以及透明质酸和奇异果稀释液的存活率,以评估潜在铜残留物的生物利用度。在实验室研究中,寻求一种更有效的方法来管理Lyngbya的生长,六种除藻剂处理包括铜基除藻剂(Cutrine(R)-Ultra,Clearigate和Algimycin(R)-PWF)的组合,一种过氧化氢基除藻剂评估了(Pycomycin(R)-SCP)和佐剂(Cide-Kick II)在控制从Lay Lake采样的沃尔氏乳杆菌中的功效。根据处理后藻的湿重和对暴露反应的目测观察,确定最有效的除藻剂处理。为了估计非目标生物的安全裕度,Pimephales promelas受到了最有效的治疗,首先接受了Phycomycin(SCP)-SCP,然后是Algimycin(R)-PWF。沉积物实验的结果表明,经过十年的铜基除藻处理,沉积物中没有可测的铜残留物,对沉积物中的H. azteca和C. dilutus也没有不利影响。根据实验室结果,以10.1 mg H2O2 / L的Phycomycin(SCP)-SCP处理,然后以0.2 mg / L的Cide-Kick II和0.26 mg Cu / L的Algimycin(R)-PWF处理可以控制藻类的生长。来自阿拉巴马州莱克湖的Lyngbya wollei,提高了非目标物种(例如P. promelas)的安全范围。 (C)2015 Elsevier Inc.保留所有权利。

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