Hall Lenwood W, Killen William D, Anderson Ronald D, Gardinali Piero R, Balcomb R
University of Maryland, Maryland Agricultural Experiment Station, Wye Research and Education Center, P.O. Box 169, Queenstown, Maryland 21658, USA.
Mar Pollut Bull. 2005 Jun;50(6):668-81. doi: 10.1016/j.marpolbul.2005.02.025. Epub 2005 Mar 23.
The objectives of this study were to measure: (1) Irgarol and GS26575 (major metabolite) during the peak 2004 boating season at selected marinas and reference areas in the Carolinian Zoogeographic Province of the Eastern United States; (2) Irgarol and GS26575 at selected stations during the summer months in the Back Creek/Severn River area in Maryland in 2003 and 2004; and (3) structural and functional characteristics of resident phytoplankton communities concurrently with Irgarol and GS26575 monitoring in Back Creek/Severn River area. Irgarol concentrations from 14 marinas in the Carolinian Province ranged from non-detectable (<1 ng/L) to 85 ng/L; concentrations were less than 16 ng/L at all reference sites. The probability of exceeding the plant 10th centile for Irgarol (251 ng/L) was less than 0.6% for all marinas and 0.01% for all reference areas. These data suggest low ecological risk from Irgarol exposure for both marina and reference areas in the Carolinian Province. Irgarol concentrations ranged from 5 ng/L at the Severn River reference site to 1,816 ng/L in Port Annapolis marina during the two year study. Ecological risk from Irgarol exposure was high for the Port Annapolis marina sites based on a probability of exceeding the plant 10th centile. However, risk was low for Severn River and Severn River reference sites. Functional and structural measures of resident phytoplankton communities in the Back Creek and Severn River did not suggest that these target species are impaired in the Port Annapolis marina area where probabilistic analysis predicted adverse effects from Irgarol exposure.
(1)2004年划船旺季期间,在美国东部卡罗来纳动物地理省选定的码头和参考区域中的烯啶菌酯和GS26575(主要代谢物);(2)2003年和2004年夏季,在马里兰州后溪/塞文河地区选定站点的烯啶菌酯和GS26575;以及(3)在后溪/塞文河地区监测烯啶菌酯和GS26575的同时,对当地浮游植物群落的结构和功能特征进行测量。卡罗来纳省14个码头的烯啶菌酯浓度范围为未检出(<1纳克/升)至85纳克/升;所有参考站点的浓度均低于16纳克/升。所有码头超过植物第10百分位数(251纳克/升)的烯啶菌酯概率小于0.6%,所有参考区域为0.01%。这些数据表明,卡罗来纳省的码头和参考区域因接触烯啶菌酯而产生的生态风险较低。在为期两年的研究中,烯啶菌酯浓度在后溪参考站点为5纳克/升,在安纳波利斯港码头为1816纳克/升。基于超过植物第10百分位数的概率,安纳波利斯港码头站点因接触烯啶菌酯而产生的生态风险很高。然而,塞文河和塞文河参考站点的风险较低。后溪和塞文河当地浮游植物群落的功能和结构测量结果表明,在概率分析预测烯啶菌酯暴露会产生不利影响的安纳波利斯港码头区域,这些目标物种并未受到损害。
