湖泊科学
湖泊科學
호박과학
JOURNAL OF LAKE SCIENCES
2015年
5期
829-839
,共11页
张浩%丁森%张远%贾晓波%孟伟%郭彪
張浩%丁森%張遠%賈曉波%孟偉%郭彪
장호%정삼%장원%가효파%맹위%곽표
鱼类生物完整性指数%局部加权回归散点修匀法%西辽河流域%环境因子
魚類生物完整性指數%跼部加權迴歸散點脩勻法%西遼河流域%環境因子
어류생물완정성지수%국부가권회귀산점수균법%서료하류역%배경인자
Fish index of biotic integrity%LOWESS%Xiliao River Basin%environmental factors
采用鱼类生物完整性指数( F-IBI)评估西辽河流域环境质量,利用相关分析筛选了影响F-IBI的环境因子,结合局部加权回归散点修匀法( LOWESS)估算了这些环境因子的保护限值.结果表明:20个候选参数指标中,鳅科鱼类物种百分比、底层鱼类物种数、耐受性鱼类个体数、杂食性鱼类物种数和筑巢产卵鱼类个体百分比适合作为西辽河流域F-IBI构建参数.采用比值法统一参数量纲,以参考点F-IBI值的95%分位数作为健康参考值,对全流域44个采样点进行健康评价,得到健康点位5个(11.4%),亚健康点位9个(20.5%),一般点位12个(27.3%),差点位11个(25.0%),极差点位7个(15.9%).电导率、氨氮浓度、碱度和泥沙比例与F-IBI呈显著负相关,坡降和草地比例与F-IBI呈显著正相关.经LOWESS和独立样本t检验发现,电导率、氨氮浓度、碱度、泥沙比例和草地比例等环境因子的保护限值分别为531μS/cm、0.55 mg/L、4.4 mmol/L、47.2%和37.0%,且限值两侧的F-IBI分值差异显著,该结果可作为西辽河流域环境管理中鱼类群落完整性保护的有益参考.
採用魚類生物完整性指數( F-IBI)評估西遼河流域環境質量,利用相關分析篩選瞭影響F-IBI的環境因子,結閤跼部加權迴歸散點脩勻法( LOWESS)估算瞭這些環境因子的保護限值.結果錶明:20箇候選參數指標中,鰍科魚類物種百分比、底層魚類物種數、耐受性魚類箇體數、雜食性魚類物種數和築巢產卵魚類箇體百分比適閤作為西遼河流域F-IBI構建參數.採用比值法統一參數量綱,以參攷點F-IBI值的95%分位數作為健康參攷值,對全流域44箇採樣點進行健康評價,得到健康點位5箇(11.4%),亞健康點位9箇(20.5%),一般點位12箇(27.3%),差點位11箇(25.0%),極差點位7箇(15.9%).電導率、氨氮濃度、堿度和泥沙比例與F-IBI呈顯著負相關,坡降和草地比例與F-IBI呈顯著正相關.經LOWESS和獨立樣本t檢驗髮現,電導率、氨氮濃度、堿度、泥沙比例和草地比例等環境因子的保護限值分彆為531μS/cm、0.55 mg/L、4.4 mmol/L、47.2%和37.0%,且限值兩側的F-IBI分值差異顯著,該結果可作為西遼河流域環境管理中魚類群落完整性保護的有益參攷.
채용어류생물완정성지수( F-IBI)평고서료하류역배경질량,이용상관분석사선료영향F-IBI적배경인자,결합국부가권회귀산점수균법( LOWESS)고산료저사배경인자적보호한치.결과표명:20개후선삼수지표중,추과어류물충백분비、저층어류물충수、내수성어류개체수、잡식성어류물충수화축소산란어류개체백분비괄합작위서료하류역F-IBI구건삼수.채용비치법통일삼수량강,이삼고점F-IBI치적95%분위수작위건강삼고치,대전류역44개채양점진행건강평개,득도건강점위5개(11.4%),아건강점위9개(20.5%),일반점위12개(27.3%),차점위11개(25.0%),겁차점위7개(15.9%).전도솔、안담농도、감도화니사비례여F-IBI정현저부상관,파강화초지비례여F-IBI정현저정상관.경LOWESS화독립양본t검험발현,전도솔、안담농도、감도、니사비례화초지비례등배경인자적보호한치분별위531μS/cm、0.55 mg/L、4.4 mmol/L、47.2%화37.0%,차한치량측적F-IBI분치차이현저,해결과가작위서료하류역배경관리중어류군락완정성보호적유익삼고.
The environmental quality of Xiliao River Basin is assessed based on the fish index of biotic integrity( F-IBI) . Protection limit values of the environmental factors correlated with the F-IBI are determined by the method of locally weighted regression scat-terplot smoother( LOWESS) . The results indicated that five indices, including the percentage of the Cobitidae fish, the number of demersal fish species, the number of omnivorous fish species, the number of tolerated fish individuals and the percentage of the nests spawning fish individuals, were suitable for constructing the F-IBI assessment system. The ratio method is used to unify di-mensionless parameters. The 95% quantile of the F-IBI in all reference sites is used as the reference value of health conditions. Forty four sampling sites of Xiliao River Basin were assessed by F-IBI. The results found that five sites(11. 4%) were in excellent grade, nine sites(20. 5%) were in good grade, twelve sites(27. 3%) were in normal grade, eleven sites(25. 0%) were in poor grade, and seven sites(15. 9%) were in very poor grade. Electrical conductivity, ammonia nitrogen, alkalinity and proportion of sand were negatively correlated with F-IBI scores in the Xiliao River Basin, whereas slope and proportion of grassland were posi-tively correlated with F-IBI scores. The results of LOWESS and independent sample t test indicated that F-IBI scores significantly changed when the electrical conductivity, ammonia nitrogen concentration, alkalinity, proportion of sand and proportion of grass-land reached the protection limit value, which was 531 μS/cm, 0. 55 mg/L, 4. 4 mmol/L, 47. 2% and 37. 0%, respectively.The results of this study could provide beneficial information for the regional environmental management of fish integrity protection in the Xiliao River Basin.