Impact of pesticides used in agriculture and vineyards to surface and groundwater quality (North Spain).
暂无分享,去创建一个
[1] Heng Tao Shen,et al. Principal Component Analysis , 2009, Encyclopedia of Biometrics.
[2] J. C. D. Silva,et al. Evaluation of the pesticide contamination of groundwater sampled over two years from a vulnerable zone in Portugal. , 2007, Journal of agricultural and food chemistry.
[3] Damià Barceló,et al. Part per trillion determination of atrazine in natural water samples by a surface plasmon resonance immunosensor , 2007, Analytical and bioanalytical chemistry.
[4] Damià Barceló,et al. Assessment of priority pesticides, degradation products, and pesticide adjuvants in groundwaters and top soils from agricultural areas of the Ebro river basin , 2007, Analytical and bioanalytical chemistry.
[5] J. L. Ovelleiro,et al. Study of the presence of pesticides in surface waters in the Ebro river basin (Spain). , 2006, Chemosphere.
[6] L. Guzzella,et al. Herbicide contamination of surficial groundwater in Northern Italy. , 2006, Environmental pollution.
[7] Triantafyllos A Albanis,et al. The status of pesticide pollution in surface waters (rivers and lakes) of Greece. Part I. Review on occurrence and levels. , 2006, Environmental pollution.
[8] Desire L. Massart,et al. Multiple factor analysis in environmental chemistry , 2005 .
[9] Ying Ouyang,et al. Evaluation of river water quality monitoring stations by principal component analysis. , 2005, Water research.
[10] Dinesh Mohan,et al. Chemometric data analysis of pollutants in wastewater—a case study , 2005 .
[11] N. Gunningham,et al. Policy Instrument Choice and Diffuse Source Pollution , 2005 .
[12] B. Helena,et al. Application of two- and three-way principal component analysis to the interpretation of chemical fractionation results obtained by the use of the B.C.R. procedure , 2004 .
[13] D. Barceló,et al. A comparison of the environmental impact of pesticide multiresidues and their occurrence in river waters surveyed by liquid chromatography coupled in tandem with UV diode array detection and mass spectrometry. , 2004, Chemosphere.
[14] L. Krutz,et al. Adsorption and desorption of atrazine, desethylatrazine, deisopropylatrazine, and hydroxyatrazine in vegetated filter strip and cultivated soil. , 2003, Journal of agricultural and food chemistry.
[15] R. Carabias-Martínez,et al. Evolution over time of the agricultural pollution of waters in an area of Salamanca and Zamora (Spain). , 2003, Water research.
[16] Darinka Brodnjak-Vončina,et al. Chemometrics characterisation of the quality of river water , 2002 .
[17] R. Carabias-Martínez,et al. Determination of herbicides and metabolites by solid-phase extraction and liquid chromatography evaluation of pollution due to herbicides in surface and groundwaters. , 2002, Journal of chromatography. A.
[18] Ashutosh Kumar Singh,et al. Treatment of nondetects in multivariate analysis of groundwater geochemistry data , 2002 .
[19] E. Papadopoulou-mourkidou,et al. Occurrence and spatial and temporal distribution of pesticide residues in groundwater of major corn-growing areas of Greece (1996-1997). , 2001, Environmental science & technology.
[20] J. van Maanen,et al. Pesticides and Nitrate in Groundwater and Rainwater in the Province of Limburg in The Netherlands , 2001, Environmental monitoring and assessment.
[21] R. Jeannot,et al. Multiresidue methods using solid-phase extraction techniques for monitoring priority pesticides, including triazines and degradation products, in ground and surface waters. , 2000, Journal of chromatography. A.
[22] Damià Barceló,et al. Multivariate correlation between concentrations of selected herbicides and derivatives in outflows from selected U.S. Midwestern reservoirs , 2000 .
[23] Barceló,et al. Broad spectrum analysis of 109 priority compounds listed in the 76/464/CEE Council Directive using solid-phase extraction and GC/EI/MS , 2000, Analytical chemistry.
[24] M. E. Laespada,et al. Evaluation of surface- and ground-water pollution due to herbicides in agricultural areas of Zamora and Salamanca (Spain). , 2000 .
[25] Vladimir Novotny,et al. Diffuse pollution from agriculture - a worldwide outlook , 1999 .
[26] R. Gilliom,et al. Occurrence of Pesticides in Shallow Groundwater of the United States: Initial Results from the National Water-Quality Assessment Program , 1998 .
[27] D Barceló,et al. Determination of parts per trillion levels of organophosphorus pesticides in groundwater by automated on-line liquid-solid extraction followed by liquid chromatography/atmospheric pressure chemical ionization mass spectrometry using positive and negative ion modes of operation. , 1996, Analytical chemistry.
[28] J. B. Rapp,et al. Occurrence and accumulation of pesticides and organic contaminants in river sediment, water and clam tissues from the san Joaquin River and tributaries, California , 1996 .
[29] Markus Flury,et al. Experimental evidence of transport of pesticides through field soils - a review , 1996 .
[30] E. Thurman,et al. Occurrence of selected pesticides and their metabolites in near-surface aquifers of the Midwestern U , 1996 .
[31] R. Kanwar,et al. Movement and degradation of [14C]atrazine in undisturbed soil columns , 1993 .
[32] Roy F. Spalding,et al. Occurrence of nitrate in groundwater-a review , 1993 .
[33] Henk A. L. Kiers,et al. Hierarchical relations among three-way methods , 1991 .
[34] Larry E. Erickson,et al. Degradation of atrazine and related s‐triazines , 1989 .
[35] Shahamat U. Khan,et al. Degradation of atrazine by Pseudomonas: N-dealkylation and dehalogenation of atrazine and its metabolites , 1986 .