References
- Legind , CN and Trapp , S . 2009 . Modeling the exposure of children and adults via diet to chemicals in the environment with crop-specific models . Environ. Pollut. , 157 : 778 – 785 .
- Schnoor , JL , Licht , LA , McCutcheon , SC , Wolfe , NL and Carreira , LH . 1995 . Phytoremediation of organic and nutrient contaminants . Environ. Sci. Technol. , 29 : A318 – A323 .
- Kleier , DA and Hsu , FC . 1996 . Phloem mobility of xenobiotics – 7. The design of phloem systemic pesticides . Weed Sci. , 44 : 749 – 756 .
- Collins , CD and Fryer , ME . Model intercomparison for the uptake of organic chemicals by plants, Environ. Sci. Technol. 37 (2003), pp. 1617–1624; Erratum 37, p. 3038
- Undeman , E , Czub , G and McLachlan , MS . 2009 . Addressing temporal variability when modeling bioaccumulation in plants . Environ. Sci. Technol. , 43 : 3751 – 3756 .
- Trapp , S , McFarlane , C and Matthies , M . 1994 . Model for uptake of xenobiotics into plants – validation with bromacil experiments . Environ. Toxicol. Chem. , 13 : 413 – 422 .
- Trapp , S and Matthies , M . Generic one-compartment model for uptake of organic-chemicals by foliar vegetation, Environ. Sci. Technol. 29 (1995), pp. 2333–2338; Erratum 30, p. 360
- Trapp , S . 2002 . Dynamic root uptake model for neutral lipophilic organics . Environ. Toxicol. Chem. , 21 : 203 – 206 .
- Trapp , S . 2007 . Fruit Tree model for uptake of organic compounds from soil and air . SAR QSAR Environ. Res. , 18 : 367 – 387 .
- Trapp , S and Legind , CN . “ Uptake of organic contaminants from soil into vegetables and fruit ” . In Dealing with Contaminated Sites: From Theory towards Practical Application F. Swartjes, ed., Springer, Dordrecht, in press
- Paterson , S , Mackay , D and McFarlane , C . 1994 . A model of organic-chemical uptake by plants from soil and the atmosphere . Environ. Sci. Technol. , 28 : 2259 – 2266 .
- Juraske , R , Castells , F , Vijay , A , Munoz , P and Anton , A . 2009 . Uptake and persistence of pesticides in plants: Measurements and model estimates for imidacloprid after foliar and soil application . J. Hazard. Mater. , 165 : 683 – 689 .
- Fujisawa , T , Ichise , K , Fukushima , M , Katagi , T and Takimoto , Y . 2002 . Mathematical model of the uptake of non-ionized pesticides by edible root of root crops . J. Pestic. Sci. , 27 : 242 – 248 .
- Fujisawa , T , Ichise , K , Fukushima , M , Katagi , T and Takimoto , Y . 2002 . Improved uptake models of nonionized pesticides to foliage and seed of crops . J. Agric. Food. Chem. , 50 : 532 – 537 .
- Trapp , S , Cammarano , A , Capri , E , Reichenberg , F and Mayer , P . 2007 . Diffusion of PAH in potato and carrot slices and application for a potato model . Environ. Sci. Technol. , 41 : 3103 – 3108 .
- Paraiba , LC . 2007 . Pesticide bioconcentration modelling for fruit trees . Chemosphere , 66 : 1468 – 1475 .
- Paraiba , LC and Kataguiri , K . 2008 . Model approach for estimating potato pesticide bioconcentration factor . Chemosphere , 73 : 1247 – 1252 .
- Hung , H and Mackay , D . 1997 . A novel and simple model of the uptake of organic chemicals by vegetation from air and soil . Chemosphere , 35 : 959 – 977 .
- Severinsen , M and Jager , T . 1998 . Modelling the influence of terrestrial vegetation on the environmental fate of xenobiotics . Chemosphere , 37 : 41 – 62 .
- Bloch , SC . 2003 . Excel for Engineers and Scientists , New York : John Wiley .
- Trapp , S and Matthies , M . 1998 . Chemodynamics and Environmental Modeling: An Introduction , Berlin–Heidelberg : Springer .
- Richards , FJ . 1959 . A flexible growth function for empirical use . J. Exp. Bot. , 10 : 290 – 300 .
- Trapp , S , Ucisik , AS , DelChica Romano , P and Larsen , M . 2007 . “ The role of plants and bacteria in phytoremediation – kinetic aspects ” . In Bioremediation of Soils Contaminated with Aromatic Compounds , Edited by: Heipieper , HJ . 41 – 49 . Berlin : Springer .
- Larcher , W . 1995 . Physiological plant ecology, , 3rd , Berlin : Springer .
- Bromilow , RH and Chamberlain , K . 1995 . “ Principles governing uptake and transport of chemcials ” . In Plant Contamination , Edited by: Trapp , S and McFarlane , C . 37 – 68 . London, Tokyo : Lewis Publishers .
- EC, EUSES, the European Union System for the Evaluation of Substances, National Institute of Public Health and the Environment (RIVM), The Netherlands, 1996
- Rippen , G . 2000 . Handbuch Umweltchemikalien , Germany : Ecomed, Landsberg am Lech .
- Elmadfa , I , Aign , W , Muskat , E , Fritsche , D and Cremer , HD . 1991 . Die Große GU Nährwert Tabelle , Germany : Gräfe und Unzer, Giessen .
- Köhnlein , J and Vetter , H . 1953 . Ernterückstände und Wurzelbild , Berlin–Hamburg : Verlag Parey .
- Wilhelm , WW . 1998 . Dry-matter partitioning and leaf area of winter-wheat grown in a long-term fallow tillage comparisons in the US Central Great Plains . Soil Tillage Res. , 49 : 49 – 56 .
- Asseng , S , Turner , NC , Botwright , T and Condon , AG . 2003 . Evaluating the impact of a trait for increased specific leaf area on wheat yields using a crop simulation model . Agron. J. , 95 : 10 – 19 .
- Quade , J . 1993 . Faustzahlen für Landwirtschaft und Gartenbau, , 12th , Bochum, Germany : Landwirtschaftsverlag GmbH .
- Legind , CN , Kennedy , CM , Rein , A , Snyder , N and Trapp , S . Dynamic plant uptake model applied for drip irrigation of an insecticide to pepper fruit plants, Pest Manag. Sci., in press
- ECHA, Guidance on Information Requirements and Chemical Safety Assessment, European Chemicals Agency, 2008. Available at http://echa.europa.eu/reach_en.asp
- Trapp , S . 1995 . “ Model for uptake of xenobiotics into plants ” . In Plant Contamination , Edited by: Trapp , S and McFarlane , C . 107 – 151 . London, Tokyo : Lewis Publishers .
- Kleier , DA . 1988 . Phloem mobility of xenobiotics – I. Mathematical model unifying the weak acid and intermediate permeability . Plant Physiol. , 86 : 803 – 810 .
- Frohne , D and Jensen , U . 1985 . Systematik des Pflanzenreiches unter besonderer Berücksichtigung Chemischer Merkmale und Pflanzlicher Drogen , Vol. 9 , Stuttgart, , Germany : Gustav Fischer .
- Zadoks , JC , Chang , TT and Konzak , CF . 1974 . Decimal code for growth stages of cereals . Weed Res. , 14 : 415 – 421 .
- Wang , EL and Engel , T . 1998 . Simulation of phenological development of wheat crops . Agric. Sys. , 58 : 1 – 24 .
- Kang , MZ , Evers , JB , Vos , J and De Reffye , P . 2008 . The derivation of sink functions of wheat organs using the GREENLAB model . Ann. Bot. , 101 : 1099 – 1108 .
- Simmons , SR , Oelke , EA and Anderson , PM . “ Growth and development guide for spring wheat ” . In Univ. Minn. Agr. Ext. Folder University of Minnesota, 1995
- Demotes-Mainard , S and Jeuffroy , MH . 2001 . Incorporating radiation and nitrogen nutrition into a model of kernel number in wheat . Crop Sci. , 41 : 415 – 423 .
- Tripathi , SC , Sayre , KD , Kaul , JN and Narang , RS . 2004 . Lodging behavior and yield potential of spring wheat (Triticum aestivum L.): Effects of ethephon and genotypes . Field Crops Res. , 87 : 207 – 220 .