Jason C. White


Jason White

Department of Analytical Chemistry, Vice Director
The Connecticut Agricultural Experiment Station
123 Huntington Street
P.O. Box 1106
New Haven, CT 06504-1106
Voice: (203) 974-8523 Fax: (203) 974-8502
E-mail: Jason.White@ct.gov


Expertise:
Dr. White has expertise on the use of nanotechnology in agriculture (nano-enabled agriculture); specifically, on the use of nanoscale micronutrients to suppress crop disease and enhance food production. He also has expertise in the accumulation and toxicity of nanomaterials to crop species, as well as the fate and disposition of engineered nanomaterials in the environment.  Dr. White has additional experience in the detection of pesticides, toxins, poisons and heavy metals in food. He also has expertise in the phytoremediation of persistent organic pollutants in soil, as well as more generally on the fate of organic contaminants in soils, sediments, and waters. 

Education:
Ph.D. in Environmental Toxicology, Cornell University 1997
M.S. in Environmental Toxicology, Cornell University 1995
B.S. in Environmental Science, Juniata College 1992

Station career:
Assistant Agricultural Scientist, 1998-2001
Associate Agricultural Scientist, 2001-2007
Agricultural Scientist, 2007-2009
Head, Chief Scientist, Department of Analytical Chemistry, 2009-present
Vice Director, 2013-current

Past research:
The focus was largely on nanotoxicology, which focuses on the fate and effects of engineered nanomaterials on biota, including plant, earthworm and algal species. In addition, past work also focused on enhancing the biological and physical availability of organic pollutants that have become sequestered in soil, as well as the use of plants through phytoremediation to facilitate soil restoration.

Current research:
The current research falls into 2 categories.
First, investigations are addressing the use of nanotechnology in agriculture, including the use of nanoscale nutrients to suppress crop disease and enhance food production. In addition, parallel work is being conducted on the fate and effects of nanomaterials (NM) in agriculture and on food crops. There are active investigations focusing on NM toxicity, accumulation, trophic transfer and food chain contamination. Active research collaborations are underway with colleagues at the Center for Sustainable Nanotechnology (NSF CCI), the Harvard University T.H. Chan School of Public Health, University of Massachusetts-Amherst, the State University of New York College of Environmental Science and Forestry, Southern Illinois University Carbondale, the University of Texas-El Paso, Texas A & M University, USDA Agricultural Research Service (ARS), the National Institute of Standards and Technology (NIST), the International Fertilizer Development Center (IFDC), Nanyang Technological University (Singapore), the University of Parma (Italy), Hasselt University (Belgium), Ocean University of China, Nanjing Agricultural University (China), Zhejiang University (China), Peking University (China), Nankai University (China), McGill University (Canada) and Institute of Experimental Botany (Czech Republic).


As part of the work on nano-enabled agriculture, I am a Senior Investigator within the Center of Sustainable Nanotechnology (https://susnano.wisc.edu/ ) and a Co-Principal Investigator in the Nanyang Technology University-Harvard University T.H. Chan School of Public Health Initiative for Sustainable Nanotechnology (NTU-Harvard SusNano) (https://www.hsph.harvard.edu/nano/2017/08/23/harvard-t-h-chan-school-of-public-health-and-nanyang-technological-university-of-singapore-join-forces-and-establish-a-research-initiative-for-sustainable-nanotechnology/ ).

 

Secondary Affiliations and Professional Activities:
Visiting Scientist, Harvard University TH Chan School of Public Health
Adjunct Faculty, Stockbridge School of Agriculture, University of Massachusetts
Adjunct Faculty, Department of Chemistry, University of Texas El Paso
Immediate Past President, International Phytotechnology Society (IPS)
Managing Editor, International Journal of Phytoremediation
Editorial Advisory Board, Environmental Science and Technology
Editorial Advisory Board, Environmental Science and Technology Letters
Editorial Board, Environmental Pollution
Editorial Board, NanoImpact
Member, Sustainable Nanotechnology Organization (SNO)
Member, Society of Environmental Toxicology and Chemistry (SETAC)
Member, American Chemical Society (ACS)

Selected publications:

Selected Papers (for reprints, please contact Jason.White@ct.gov):

(https://scholar.google.com/citations?user=QfhoqpoAAAAJ&hl=en)

  1. Cao, Y.; Ma, C.; Chen, G.; Zhang, J.; White, J.C.; Xing, B. 2020. Copper stress in flooded soil: Impact on enzyme activities, microbial community composition and diversity in the rhizosphere of Salix integra. Sci. Tot. Environ. 704:135350.

  2. Hu, J.; Wu, X.; Wu, F.; Chen, W.; White, J.C.; Yang, Y.; Wang, B.; Xing, B.; Tao, S.; Wang, X. 2019. Potential application of titanium dioxide nanoparticles to improve the nutritional quality of coriander (Coriandrum sativum L.). J. Hazard. Mat. https://doi.org/10.1016/j.jhazmat.2019.121837.

  3. Peréz, C.D.P.; De La Torre Roche, R.; Zuverza-Mena, N.; Ma, C.; Shen, Y.; White, J.C.; Ampélio Pozza, E.; Pozza, A.A.A.; Elmer, W.H. 2019. Metalloid and metal oxide nanoparticles suppress Sudden Death Syndrome of soybean. J. Ag. Food Chem. doi.org/10.1021/acs.jafc.9b06082.

  4. Tian, L.; Zhang, H.; Zhao, X.; Gu, X.; White, J.C.; Li, X.; Zhao, L.; Ji, R. 2019. CdS nanoparticles induce metabolic reprogramming in Broad Bean (Vicia faba L.) roots and leaves. Environ. Sci.: Nano DOI: 10.1039/C9EN00933G.

  5. Liao, Y.Y.; Strayer-Scherer, A.; White, J.C.; De La Torre-Roche, R.; Ritchie, L.; Colee, J.; Vallad G. E., Freeman, J.; Jones, J. B.; Paret, M. L. 2019. Particle-size dependent bactericidal activity of magnesium oxide against Xanthomonas perforans and bacterial spot of tomato. Sci. Reports In press.

  6. Buchman, J.; Elmer, W.; Ma, C.; Landy, K.; White, J.C.; Haynes, C. 2019. Chitosan-coated mesoporous silica nanoparticle treatment of Citrullus lanatus (Watermelon): Enhanced fungal disease suppression and modulated expression of stress-related genes. ACS Sus. Chem. Eng. https://doi.org/10.1021/acssuschemeng.9b04800.

  7. Geitner, N.K; Hendren, C.O.; Cornelis, G.; Kaegi, R.; Lead, J.; Lowry, G.; Lynch, I.; Nowack, B.; Petersen, E.; Bernhardt, E.; Brown, S.; Chan, W.; de Garidel-Thoron, C.; Hanson, J.; Harper, S.; Jones, K.; von der Kammer, F.; Kennedy, A.; Kidd, J.; Matson, C.; Metcalf, C.; Pedersen, J.; J G M Peijnenburg, W.; T K Quik, J.; Rodrigues, S.M.;Rose, J.; Sayre, P.; Simonin, M.; Svendsen, C.; Tanguay, R.; Tufenkji, N.; van Teunenbroek, T.; Thies, G.; Tian, Y.; RiceJ.; Turner, A.; Liu, J.; Unrine, J.; Vance, M.; White, J.C.; Wiesner, M.R. 2019. Harmonizing across environmental nanomaterial testing media for increased comparability of nanomaterial datasets. Environ. Sci.: Nano DOI: 10.1039/c9en00448c.

  8. Bindraban, P.S.; Franklin, F.A.; White, J.C.; Melse-Boonstra, A.; Koele, N.; Pandey, R.; Dimkpa, C.O.; Rodenburgh, J.; Senthilkumar, K.; Demokritou, P.; Schmidt, S. 2019. Safeguarding human and planetary health demands a fertilizer sector transformation. Plants, People, Planet In press.

  9. Marmiroli, M.; Mussi, F.; Pagano, L.; Imperiale, D.; Lencioni, G.; Villani, M.; Zappettini, A.; White, J.C.; Marmiroli, N. 2020. Cadmium sulfide quantum dots and Cd2+ impact differently on Arabidopsis thaliana physiology and morphology. Chemosphere 240:124856.

  10. Hao, Y.; Wang, Y.; Ma, C.; White, J.C.; Duan, C.; Zhao, Z.; Zhang, Y.; Adeel, M.; Li, G.; Rui, Y.; Xing, B. 2019. Carbon nanomaterials increase methane production from livestock manure in an anaerobic digestion system. J. Clean. Prod. 240:118257. 

  11. Majumdar, S.; Pagano, L.; Wohlschlegel, J.A.; Villani, M.; Li, W.; Parkash Dhankher, O.; Zappettini, A.; Marmiroli, N.; White, J.C.; Keller, A. 2019. Proteomic, gene and metabolite characterization reveal uptake and toxicity mechanism of cadmium sulfide quantum dots in soybean plants. Environ. Sci.: Nano. DOI: 10.1039/C9EN00599D.

  12. Cao, X.; DeLoid, G.M.; Bitounisa, D.; De La Torre-Roche, R.; White, J.C.; Zhang, Z.; Guan, H.C.; Nga, K.W.; Zhong, W.; Eitzer, B.D.; Demokritou, P. 2019. Co-exposure of food additives SiO2 (E551) and TiO2 (E171) with pesticide boscalid and effects on cytotoxicity and bioavailability of boscalid using a tri-culture small intestinal epithelium cell model: Potential health implications. Environ. Sci.: Nano. DOI: 10.1039/c9en00676a.

  13. Cao, X.; Ma, C.; Zhao, J.; Musante, C.; White, J.C.; Wang, Z.; Xing, B. 2019. Interaction of graphene oxide with co-existing arsenite and arsenate: adsorption, transformation and combined toxicity. Environ. Int. 131:104992.

  14. Dimkpa, C.O.; Singh, U.; Bindraban, P.S.; Elmer. W.H.; Gardea-Torresdey, J.L.; White, J.C. 2019. Zinc oxide nanoparticles alleviate drought-induced alterations in sorghum performance, nutrient acquisition, and grain fortification. Sci. Tot. Environ. 688:926-934.

  15. Hou, J.; Lin, D.; White, J.C.; Gardea-Torresdey, J.; Xing, B. 2019. Joint nanotoxicology assessment provides a new strategy for developing nano-enabled bioremediation technologies. Environ. Sci. Technol. 53:7927-7929.

  16. Su, Y.; Ashworth, V.;  Kim, C.;  Adeleye, A.S.; Rolshausen, P.; Roper, C.; White, J.C.; Jassby, D. 2019. Delivery, uptake, fate, and transport of engineered nanoparticles in plants: A critical review and data analysis. Environ. Sci.: Nano. DOI: 10.1039/C9EN00461K

  17. Agrimonti, C.; White, J.C.; Tonetti, S.; Marmiroli, N. 2018. Antimicrobial activity of cellulosic pads treated with emulsions derived from essential oils of oregano and thyme against bacteria of minced beef meat. Int. J. Food Micro.  DOI.org/10.1016/j.ijfoodmicro.2019.108246.

  18. Kah, M.; Tufenkji, N.; White, J.C. 2019. Nano-enabled strategies to enhance crop nutrition and protection. Nature Nano. 14:532-540.

  19. Ma, C.; Borgatta, J.; De La Torre Roche, R.; Zuverza-Mena, N.; White, J.C.; Hamers, R.J.; Elmer, W.E. 2019. Time-dependent transcriptional response of tomato (Solanum lycopersicum L.) to Cu nanoparticle exposure upon infection with Fusarium oxysporum f. sp. Lycopersici. ACS Sust. Chem. Eng. 7:10064-10074.

  20. Adisa, I.; Pullagurala, V.L.R.; Peralta-Videa, J.R.; Dimkpa, C.O.; Ma, C.; Elmer, W.H.; Gardea-Torresdey J.L.; White, J.C. 2019. Recent advances in nano-enabled fertilizers and pesticides: A critical review of mechanisms of action.  Environ. Sci.: Nano. DOI: 10.1039/C9EN00265K.

  21. Zhao, L.; Zhang, H.; Chen, X.; Li, H.; Qu, X.; White, J.C.; Ji, R. 2019 Metabolomics reveal that engineered nanomaterial exposure in soil alters both soil rhizosphere metabolite profiles and maize metabolic pathways. Environ. Sci.: Nano. 10.1039/c9en00137a.

  22. Petersen, E. J.; Mortimer, M.; Burgess, R.; Handy, R.; Hanna, S.; Ho, K.; Johnson, M.; Loureiro, S.; Selck, H.; Scott-Fordsmand, J.; Spurgeon, D.; Unrine, J.; van den Brink, N.; Wang, Y.; White, J.C.; Holden, P. 2019. Strategies for robust and accurate experimental approaches to quantify nanomaterial bioaccumulation across a broad range of organisms.  Environ. Sci.: Nano. 6:1619-1656.

  23. Dimkpa, C.O.; Singh, U.; Bindraban, P.S.; Adisa, I.O.; Elmer, W.H.; Gardea-Torresdey, J.L.; White, J.C. 2019. Addition-omission of zinc, copper, and boron nano and bulk oxide particles demonstrate element and size -specific response of soybean to micronutrients exposure. Sci. Tot. Environ. 665:606-616.

  24. Majumdar, S.; Ma, C.; Villani, M.; Pagano, L.; Zuverza-Mena, N.; Huang, Y.; Zappettini, A.; Keller, A.; Marmiroli, N.; Parkash, O.; White, J.C. 2019. Surface coating determines the response of soybean plants to cadmium sulfide quantum dots. NanoImpact doi.org/10.1016/j.impact.2019.100151.

  25. Guo, H.; Ma, C.; Thistle, L.; Huynh, M.; Yu, C.; Clasby, D.; Chefetz, B.; Polubesova‖, T.; White, J.C.; He, L.; Xing, B. 2019.  Transformation of Ag ions to Ag nanoparticles-loaded AgCl microcubes in the plant root zone. Environ. Sci.: Nano DOI.10.1039/C9EN00088G

  26. Zhao, L.; Zhang, Z.; Wang, J.; Tian, L.; Li, F.; Liu, S.; Peralta-Videa, J.; Gardea-Torresdey, J.G.; White, J.C.; Huang, Y.; Keller, A.; Rong, J. 2019. C60 Fullerols enhance copper toxicity and alter the leaf metabolite and protein profile in cucumber. Environ. Sci. Technol.  53:2171-2180.

  27. Deng, R.; Zhu, Y.; Hou, J.; White, J.C.; Gardea-Torresdey, J.L.; Lin, D. 2019. Antagonistic toxicity of carbon nanotubes and pentachlorophenol to Escherichia coli: Physiological and transcriptional response. Carbon. 145:658-667.

  28. Singh, S.; Wohlleben, W.; De La Torre Roche, R.; White, J.C.; Demokritou, P. 2019. Thermal decomposition/incineration of nano-enabled coatings and effects of nanofiller/matrix properties and operational conditions on byproduct release dynamics: Potential environmental health implications. NanoImpact. 13:44-55.

  29. Cao, Y.; Ma, C.; Zhang, J.; Wang, S.; White, J.C.; Xing, B.; Chen, C. 2019. Accumulation and spatial distribution of copper in willow as affected by soil flooding: A synchrotron-based X-ray fluorescence study. Environ. Poll. doi.org/10.1016/j.envpol.2018.12.025.

  30. Hao, Y.; Fang, P.; Ma, C.; White, J.C.; Xiang, Z.; Duan, P.; Zhao, Z.; Adeel, M.; Ali, A.; Yang, J.; Li, D.; Wang, H.; Zhang, Z.; Rui, Y.; Xing, B. 2019. Engineered nanomaterials inhibit Podosphaera pannosa infection on rose leaves by regulating phytohormones. Environ. Res. 170:1-6.

  31. Xu, L.; Dai, Y.; Wang, Z.; Zhao, J.; Li, F.; White, J.C.; Xing, B. 2018. Graphene quantum dots in macrophage nuclei: Uptake, response and DNA cleavage. Part. Fibre Toxicol. 15:45 doi.org/10.1186/s12989-018-0279-8.

  32. Marko, M.D; White, J.C. 2018. Direct comparison of herbicidal or biological treatment on Myriophyllum spicatum control and biochemistry. Front. Plant Sci. doi.org/10.3389/fpls.2018.01814.

  33. Pagano, L.; Maestri, E.; White, J.C.; Marmiroli, N.; Marmiroli, M. 2018. Quantum dots exposure in plants: Minimizing the adverse response Curr. Op. Environ. Sci. Health doi.org/10.1016/j.coesh.2018.09.001.

  34. Zhang, Z.; Guo, G.; Ma, C.; White, J.C.; Xing, B.; He, L. 2019. Rapid and efficient removal of silver nanoparticles from plant surfaces using sodium hypochlorite and ammonium hydroxide solution. Food Control 98:68-73.

  35. Pagano, L.; Maestri, E.; Caldara, M.; White, J.C.; Marmiroli, N.; Marmiroli, M. 2018. Engineered nanomaterial activity at the organelle level: Impacts on the chloroplast and mitochondria. ACS Sustain. Chem. Eng. 6(10), 12562-12579.

  36. Ma, C.; Borgatta, J.; De La Torre Roche, R.; Zuverza-Mena, N.; White, J.C.; Hamers, R.J.; Elmer, W.E. 2019. Time-dependent transcriptional response of tomato (Solanum lycopersicum L.) to Cu nanoparticle exposure upon infection with Fusarium oxysporum f. sp. Lycopersici. ACS Sust. Chem. Eng. 10.1021/acssuschemeng.9b01433.

     

  37. Kah, M.; Tufenkji, N.; White, J.C. 2019. Nano-enabled strategies to enhance crop nutrition and protection. Nature Nano. In press.

     

  38. Peréz, C.D.P.; De La Torre Roche, R.; Zuverza-Mena, N.; White, J.C.; Ampélio Pozza, E.; Pozza, A.A.A.; Elmer, W.H. 2018. Effect of metalloid and metal oxide nanoparticles on Fusarium virguliforme and soybean sudden death syndrome. Trop Plant Path submitted for publication.

     

  39. Adisa, I.; Pullagurala, V.L.R.; Peralta-Videa, J.R.; Dimkpa, C.O.; Ma, C.; Elmer, W.H.; Gardea-Torresdey J.L.; White, J.C. 2019. Engineered nanomaterials as plant fertilizers and pesticides: Emerging opportunities with lower environmental impacts.  Environ. Sci.: Nano. DOI: 10.1039/C9EN00265K.

     

  40. Agrimonti, C.; White, J.C.; Tonetti, S.; Marmiroli, N. 2018. Antimicrobial activity of cellulosic pads treated with emulsions derived from essential oils of oregano and thyme against bacteria of minced beef meat. Food Res. Int. Submitted for publication.

     

  41. Ma, C.; Cao, X.; Ma, W.; Guo, H.; Tang, Y.; Huang, R.; Parkash Dhankher, O.; Zhang, X.; Zhang, S.; Zhao, Q.; White, J.C.; Xing, B. 2018. Physiological and molecular response of Arabidopsis thaliana (L.) to layered black phosphorus. Small Submitted for publication.

     

  42. Zhao, L.; Zhang, H.; Chen, X.; Li, H.; Qu, X.; White, J.C.; Ji, R. 2019 Metabolomics reveal that engineered nanomaterial exposure in soil alters both soil rhizosphere metabolite profiles and maize metabolic pathways. Environ. Sci.: Nano. 10.1039/c9en00137a.

     

  43. Petersen, E. J.; Mortimer, M.; Burgess, R.; Handy, R.; Hanna, S.; Ho, K.; Johnson, M.; Loureiro, S.; Selck, H.; Scott-Fordsmand, J.; Spurgeon, D.; Unrine, J.; van den Brink, N.; Wang, Y.; White, J.C.; Holden, P. 2019. Strategies for robust and accurate experimental approaches to quantify nanomaterial bioaccumulation across a broad range of organisms.  Environ. Sci.: Nano. DOI: 10.1039/C8EN01378K.

     

  44. Dimkpa, C.O.; Singh, U.; Bindraban, P.S.; Adisa, I.O.; Elmer, W.H.; Gardea-Torresdey, J.L.; White, J.C. 2019. Addition-omission of zinc, copper, and boron nano and bulk oxide particles demonstrate element and size -specific response of soybean to micronutrients exposure. Sci. Tot. Environ. In press.

     

  45. Majumdar, S.; Ma, C.; Villani, M.; Pagano, L.; Zuverza-Mena, N.; Huang, Y.; Zappettini, A.; Keller, A.; Marmiroli, N.; Parkash, O.; White, J.C. 2019. Surface coating determines the response of soybean plants to cadmium sulfide quantum dots. NanoImpact doi.org/10.1016/j.impact.2019.100151.

     

  46. Guo, H.; Ma, C.; Thistle, L.; Huynh, M.; Yu, C.; Clasby, D.; Chefetz, B.; Polubesova‖, T.; White, J.C.; He, L.; Xing, B. 2019.  Transformation of Ag ions to Ag nanoparticles-loaded AgCl microcubes in the plant root zone. Environ. Sci.: Nano DOI.10.1039/C9EN00088G

     

  47. Zhao, L.; Zhang, Z.; Wang, J.; Tian, L.; Li, F.; Liu, S.; Peralta-Videa, J.; Gardea-Torresdey, J.G.; White, J.C.; Huang, Y.; Keller, A.; Rong, J. 2019. C60 Fullerols enhance copper toxicity and alter the leaf metabolite and protein profile in cucumber. Environ. Sci. Technol. 53:2171-2180.

     

  48. Deng, R.; Zhu, Y.; Hou, J.; White, J.C.; Gardea-Torresdey, J.L.; Lin, D. 2019. Antagonistic toxicity of carbon nanotubes and pentachlorophenol to Escherichia coli: Physiological and transcriptional response. Carbon. 145:658-667.

     

  49. Singh, S.; Wohlleben, W.; De La Torre Roche, R.; White, J.C.; Demokritou, P. 2019. Thermal decomposition/incineration of nano-enabled coatings and effects of nanofiller/matrix properties and operational conditions on byproduct release dynamics: Potential environmental health implications. NanoImpact. 13:44-55.

     

  50. Cao, Y.; Ma, C.; Zhang, J.; Wang, S.; White, J.C.; Xing, B.; Chen, C. 2019. Accumulation and spatial distribution of copper in willow as affected by soil flooding: A synchrotron-based X-ray fluorescence study. Environ. Poll. doi.org/10.1016/j.envpol.2018.12.025.

     

  51. Hao, Y.; Fang, P.; Ma, C.; White, J.C.; Xiang, Z.; Duan, P.; Zhao, Z.; Adeel, M.; Ali, A.; Yang, J.; Li, D.; Wang, H.; Zhang, Z.; Rui, Y.; Xing, B. 2019. Engineered nanomaterials inhibit Podosphaera pannosa infection on rose leaves by regulating phytohormones. Environ. Res. 170:1-6.

     

  52. Xu, L.; Dai, Y.; Wang, Z.; Zhao, J.; Li, F.; White, J.C.; Xing, B. 2018. Graphene quantum dots in macrophage nuclei: Uptake, response and DNA cleavage. Part. Fibre Toxicol. 15:45 doi.org/10.1186/s12989-018-0279-8.

     

  53. Marko, M.D; White, J.C. 2018. Direct comparison of herbicidal or biological treatment on Myriophyllum spicatum control and biochemistry. Front. Plant Sci. doi.org/10.3389/fpls.2018.01814.

     

  54. Pagano, L.; Maestri, E.; White, J.C.; Marmiroli, N.; Marmiroli, M. 2018. Quantum dots exposure in plants: Minimizing the adverse response Curr. Op. Environ. Sci. Health doi.org/10.1016/j.coesh.2018.09.001.

     

  55. Zhang, Z.; Guo, G.; Ma, C.; White, J.C.; Xing, B.; He, L. 2018. Rapid and efficient removal of silver nanoparticles from plant surfaces using sodium hypochlorite and ammonium hydroxide solution. Food Control doi.org/10.1016/j.foodcont.2018.11.005.

     

  56. Pagano, L.; Maestri, E.; Caldara, M.; White, J.C.; Marmiroli, N.; Marmiroli, M. 2018. Engineered nanomaterial activity at the organelle level: Impacts on the chloroplast and mitochondria. ACS Sustain. Chem. Eng. 6(10), 12562-12579.

     

  57. Borgatta, J.; Ma, C.; Hudson-Smith, N.; Elmer, W.; Plaza Pére, C.D.; De La Torre-Roche, R.; Zuverza-Mena, N.; Haynes, C.L.; White, J.C.; Hamers, R.J. 2018. Copper nanomaterials suppress root fungal disease in watermelon (Citrullus lanatus): Role of particle morphology, composition and dissolution behavior. ACS Sustain. Chem. Eng. 6 (11), pp 14847–14856.

     

  58. Jia,W.; Ma, C.; Yin, M.; Cao, H.; Wang,J.; Wang, C.; Sun, H.;  White, J.C.; Xing, B. 2019. Effects of biochar on 2, 2', 4, 4', 5, 5'- hexabrominated diphenyl ether (BDE-153) fate in Amaranthus mangostanus L.: Accumulation, metabolite formation, and physiological response. Sci. Tot. Environ. 651:1154-1165.

     

  59. Zhang, H.; Chen, W.; Zhang, X.; Wu, F.; White, J.C.; Tao, S.; Wang, X. 2018. Carbon nanomaterials differentially impact bioaccumulation and oxidative response of phenanthrene and methyl derivatives in geophagous earthworms (Metaphire guillelmi): A multi-contaminant exposure study. J. Environ. Chem. Eng. 6:6537-6544.

     

  60. Elmer, W.H.; Ma, C.; White, J.C. 2018. Nanoparticles for plant disease management. Curr. Op. Environ. Sci. Health 6:66-70.

     

  61. Guo, H.; White, J.C.; Wang, Z.; Xing, B. 2018. Nano-enabled fertilizers to control the release and use efficiency of nutrients. Curr. Op. Environ. Sci. Health doi.org/10.1016/j.coesh.2018.07.009.

     

  62. Dimkpa, C.O.; Singh, U.; Bindraban, P.E.; Elmer, W.E.; Gardea-Torresdey, J.; White, J.C. 2018. Exposure to weathered and fresh nanoparticle and ionic Zn in soil promotes grain yield and modulates nutrient acquisition in winter wheat (Triticum aestivum). J.Agric. Food Chem. 66 (37), 9645-9656.

     

  63. White, J.C.; Gardea-Torresdey, J. 2018. Nanotechnology and agriculture: The path to food security may be through the very small. Nature Nano. 13:627:629.

     

  64. Dimkpa, C.O.; Adisa, I.O.; Elmer, W.E.; Gardea-Torresdey, J.L.; White, J.C. 2018. Effect of manganese nanoparticle exposure on nutrient acquisition in wheat. Agronomy 8(9), 158; doi.org/10.3390/agronomy8090158.

     

  65. Medina-Velo; I.A.; Zuverza-Mena, N.; Tamez; C.; Ye, Y.; Hernandez-Viezcas, J.A.; White, J.C.;  Peralta-Videa, J.R.; Gardea-Torresdey, J.L. 2018. Minimal transgenerational effect of ZnO nanomaterials on the physiology and nutrient profile of Phaseolus vulagaris. ACS Sustain. Chem. Eng. 6:7924-7930.

     

  66. Zhang, L.; Lei, C.; Yang, K.; White, J.C.; Lin, D. 2018. Cellular response of Chlorella pyrenoidosa to oxidized multi-walled carbon nanotubes. Environ. Sci.: Nano. 5:2415-2425.

     

  67. Zuverza-Mena, N.; White, J.C. 2018. Engineered nanomaterials in terrestrial systems: Trophic transfer and interactions with co-existing contaminants. Curr. Op. Environ. Sci. Health 6:60–65.

     

  68. Elmer, W.; White, J.C. 2018. The future of nanotechnology in plant pathology. Ann. Rev. Phytopath. 56:111–133.

     

  69. Adisa, I.; Pullagurala, V.L.R.; Rawat, S.; Hernandez-Viezcas, J.A.; Dimkpa, C.O.; Elmer, W.H.; White, J.C.; Peralta-Videa, J.R.; Gardea-Torresdey, J.L. 2018. Role of cerium compounds in Fusarium wilt suppression and growth enhancement in tomato (Solanum lycopersicum). J. Agric. Food Chem. 66:5959-5970.

     

  70. Krol, W.J.; Eitzer, B.D.; Robb, C.; Arsenault, T.; Musante, C.; White, J.C. 2018. Pesticide residues and arsenic found in produce sold in Connecticut in 2017: MFRPS ISO 17025:2005 food testing. Connecticut Agricultural Experiment Station Technical Bulletin 19.

     

  71. Ranciato, J.; Zuverza-Mena; Eitzer, B.; White, J.C. 2018. Analysis of Animal Feed Products Sold in Connecticut 2017. Connecticut Agricultural Experiment Station Technical Bulletin 18.

     

  72. Zhang, H.; Du, W.; Peralta-Videa, J.R.; Gardea-Torresdey, J.L.; White, J.C.; Guo, H.; Ji, R.; Zhao, L. 2018. Metabolomics reveals how cucumber (Cucumis sativus) reprograms metabolites to cope with silver nanoparticle-induced oxidative stress.  Environ. Sci. Technol. 52:8016-8026.

     

  73. Rui, M.; Ma, C.; White, J.C.; Tang, X.; Yang, J.; Jiang, F.; Hao, Y.; Ali, A.; Rui, Y.; Cao, W.;  Xing, B. 2018. Metal oxide nanoparticles alter peanut (Arachis hypogaea L.) physiological response and reduce nutritional quality: A life cycle study. Environ. Sci.: Nano. 5:2088-2102.

     

  74. Liao, Y.Y.; Strayer-Scherer, A.; White, J.C.; Mukherjee, A.; De La Torre-Roche, R.; Ritchie, L.; Clark, D.; Vallad G. E.; Freeman, J.; Jones, J. B; Paret, M.L. Nano-Magnesium oxide: A novel bactericide against copper-tolerant Xanthomonas perforans causing tomato bacterial spot. Phytopathol. J. 108 (10), 146-147.

     

  75. De La Torre Roche, R.; Pagano, L.; Majumdar, S.; Eitzer, B.D.; Zuverza-Mena, N.; Ma, C.; Servin, A.; Marmiroli, N.; Parkash Dhankker, O.; White, J.C. 2018. Co-exposure of imidacloprid and nanoparticle Ag or CeO2 to Cucurbita pepo (Zucchini): Contaminant bioaccumulation and translocation. NanoImpact 11:136-145.

     

  76. Elmer, W.; De La Torre-Roche, R.; Pagano, L.; Majumdar, S.; Zuverza-Mena, N.; Dimkpa, C.; Gardea-Torresdey, J.; White, J.C. 2018. Effect of foliarly applied nanoparticle CuO on Fusarium wilt of watermelon. Plant Disease 102:1394-1401.

     

  77. Hao, Y.; Yuan, W.; Ma, C.; White, J.C.; Zhang, Z.; Hou, T.; Dong, Y.; Wang, Q.; Wang, R.; Xiang, Y.; Xiang, Z.; Dong, W.; Xing, B.; Zhou, T.; Rui, Y. 2018. Engineered nanomaterials suppress Turnip mosaic virus infection in Nicotiana benthamiana. Environ. Sci.: Nano , 5:1685-1693.

     

  78. Hassan, J.A.; De la Torre-Roche, R.; White, J.C.; Lewis, J.D. 2017. Soil mixture composition alters Arabidopsis susceptibility to Pseudomonas syringae infection Plant Direct. 10.1002/pld3.44.

     

  79. Servin, A.D.; Castillo-Michel, H.; Hernandez-Viezcas, J.A.; De Nolf , W.; De la Torre-Roche, R.; Pagano, L.; Pignatello, J.; Uchimiya, M.; Gardea-Torresdey, J.; White, J.C. 2017. Bioaccumulation of CeO2 nanoparticles by earthworms in biochar amended soil: A synchrotron microspectroscopy study. J. Agric. Food. Chem. DOI: 10.1021/acs.jafc.7b04612.

     

  80. Zhang, W.; Schwab, P.; White, J.C.; Ma, X. 2018. Adsorption of cerium oxide nanoparticles on sand and kaolin: Impact of nanoparticle surface properties. J. Environ. Qual. 47:129–138.

     

  81. Ma, C.; White, J.C.; Zhao, J.; Zhao, Q.; Xing, B. 2018. Uptake of engineered nanoparticles by food crops: Characterization, mechanisms, and implications. An. Rev. Food Sci. Technol. 9:7.1-7.25.

     

  82. Eevers N.; Hawthorne J.R.; White J.C.; Vangronsveld J.; Weyens N. 2018. Endophyte-enhanced phytoremediation of DDE-contaminated field soils using Cucurbita pepo. Int. J. Phytorem. 20:4, 301-310.

     

  83. Medina-Velo, I.A.; Dominguez, O.E.; Ochoa, L.; Barrios, A.C.; Hernández-Viezcas, J.A.; White, J.C.; Peralta-Videa, J.R;  Gardea-Torresdey, J.L. 2017. Nutritional quality of bean seeds harvested from plants grown in different soils amended with coated and uncoated zinc oxide nanomaterials. Environ. Sci.: Nano 4:2336-2347.

     

  84. Han, J.; Qiu, W.; Campbell, E.C.; White, J.C.; Xing, B. 2017. Nylon bristles and elastomers retain centigram levels of Triclosan and other chemicals from toothpastes: Accumulation and uncontrolled release. Environ. Sci. Technol. 51:12264-12273.

     

  85. Lohse, S.E.; Abadeer,N.S.; Zoloty, M.; White, J.C.; Newman, L.A.; Murphy, C.J. 2017. Nanomaterial probes in the environment: Gold nanoparticle (AuNP) stability and soil retention as a function of surface chemistry. ACS Sustain. Chem. Eng. 5:11451–11458.

     

  86. Ruotolo, R.; Maestri, E.; Marmiroli, M.; Pagano, L.; White, J.C.; Marmiroli, N. 2018. Plant response to metal-containing engineered nanoparticles: an omics-based systems biology perspective. Environ. Sci. Technol. 52:2451–2467.

     

  87. Dimkpa, C; White, J.C.; Elmer, W.; Gardea-Torresdey, J. 2017. Nanoparticle and ionic Zn promote nutrient loading of sorghum grain under low NPK fertilization. J. Agric. Food Chem. 65:8552–8559.

     

  88. Bhattacharyya, S.; Bennett, J.; Short, L.; Theisen, T.; Wichman, M.D.; White, J.C.; Wright, S. 2017. Nanotechnology in the water industry- Part 1:. Occurrence and risks. J AWWA 109(11):30-37.

     

  89. Bhattacharyya, S.; Bennett, J.; Short, L.; Theisen, T.; Wichman, M.D.; White, J.C.; Wright, S. 2017. Nanotechnology in the water industry- Part 2: Toxicology and analysis. J AWWA 109(12):45-53

     

  90. DeLoid, G.M.; Wang, Y.; Kapronezai, K.; Rubio Lorente, L.; Zhang, R.; Pyrgiotakis, G.; Konduru, N.V.; Ericsson, M.; White, J.C.; De La Torre-Roche, R.; McClements, D.J.; Demokritou, P. 2017. An integrated methodology for assessing interactions with food, transformations across the gastrointestinal tract, biokinetics and toxicology of ingested engineered nanomaterials. Part. Fibre Toxicol. 14:40.

     

  91. Uchimiya, M.; Pignatello, J.; White, J.C.; Hu, S.-L.; Ferreira, P. 2017. Structural transformation of biochar black carbon by C60 superstructure: Environmental implications. Sci. Reports DOI:10.1038/s41598-017-12117-9.

     

  92. Eevers N.; Hawthorne J.R.; White J.C.; Vangronsveld J.; Weyens N. 2018. Endophyte-enhanced phytoremediation of DDE-contaminated field soils using Cucurbita pepo. Int. J. Phytorem. 20:4, 301-310.

     

  93. Zhang, H.; Chen, W.; Shen, X.; Yang, Y.; White, J.C.; Lead, J.; Tao, S.; Wang, X. 2017. Influence of multiwall carbon nanotubes and fullerene on the bioaccumulation and elimination kinetics of phenanthrene by geophagous earthworms (Metaphire guillelmi). Environ. Sci.: Nano 4:1887-1899.

     

  94. Pagano, L.; Pasquali, F.; Majumdar, S.; De La Torre-Roche, R.; Zuverza-Mena, N.; Villani, M.; Zappettini, A.; Marra, R.; Isch, S.M.; Marmiroli, M.; Maestri, E.; Parkash Dhanker, O.; White, J.C.; Marmiroli, N. 2017. Exposure of Cucurbita pepo to binary combinations of engineered nanomaterials: Physiological and molecular response. Environ. Sci: Nano 4:1579-1590.

     

  95. Ma, C.; Liu, H.; Chen, G.; Zhao, Q.; Eitzer, B.; Wang, Z.; Cai, W.; Newman, L.A.; White, J.C.; Dhankher, O.; Xing, B. 2017. Effects of titanium oxide nanoparticles on tetracycline accumulation and toxicity in Oryza sativa (L.). Environ. Sci.: Nano. 4:1827-1839.

     

  96. Deng, R.; Lin, D.; Zhu, L.; Majumdar, S.; White, J.C.; Gardea-Torresdey, J.L.; Xing, B. 2017. Nanoparticle interactions with co-existing contaminants: Joint toxicity, bioaccumulation and risk. Nanotox. 11:591-612.

     

  97. Uchimiya, M.; Pignatello, J.J.; White, J.C.; Hu, S.; Ferreira, P.J. 2017. Surface interactions between gold nanoparticles and biochar. Sci. Reports 7:5027  DOI:10.1038/s41598-017-03916-1 .

     

  98. Zhao, B.; Yang, T.; Cao, X.; De La Torre-Roche, R.; White, J.C.; Xiao, H.; Xing, B.; He, L. 2017. A Green, facile, and rapid method for microextraction and Raman detection of titanium dioxide nanoparticles from milk powder. RSC Advances 7:21380-21388.

     

  99. Eevers, N.; White, J.C.; Weyens, N.; Vangronsveld, J. 2017. Bio- and phytoremediation of pesticide contaminated environments: A review. Adv.  Botan. Sci. 83:277-318.

     

  100. Li, J.; Sang, H.; Guo, H.; Jung, G.; Mukherjee, A.; White, J.C.; Xing, B. 2017. Antifungal mechanisms of ZnO and Ag nanoparticles to Sclerotinia homeocarpa. Nanotechnol. 28:155101.

     

  101. Lui, H.; Ma, C.; Chen, G.; White, J.C.; Parkash Dhankher, O.; Xing, B. 2017. Titanium dioxide nanoparticles alleviate tetracycline toxicity to Arabidopsis thaliana. ACS Sustain. Chem. Eng. 5(4):3204–3213.

     

  102. Krol, W.J.; Eitzer, B.D.; Arsenault, T. White, J.C.; Fontana, J.; Sloan, E.; Lin, L.A.; Robinson, S. 2017. A targeted study of pesticide residues in fresh and dried herbs sold in Connecticut in 2011. CAES Technical Bulletin 15.

     

  103. Rodrigues, S; Dokoozlian, N; Hendren, C.O.; Karn, B.; Mauter, M.; Sadik, O.; Safarpour, M.; Unrine, J.; Viers, J.; White, J.C.; Wiesner, M.R.; Lowry, G.V. 2017. Nanotechnology for sustainable food production: High value opportunities and scientific challenges. ES: Nano 4:767-781. 

     

  104. Yue, L.; Ma, C.; Zhan, X.; White, J.C.; Xing, B. 2017. Molecular mechanisms of maize seedling response to La2O3 NPs exposure: Water uptake, aquaporin gene expression and signal transduction. ES: Nano 4:843-855.

     

  105. Servin, A.D.; Pagano, L.; Castillo-Michel, H.; De La Torre-Roche, R.; Hawthorne, J.; Hernandez-Viezcas, J.A.; Loredo, R.; Majumdar, S.; Gardea-Torresdey, J.; Parkash-Dhankher, O.; White, J.C. 2017. Weathering in soil increases nanoparticle CuO bioaccumulation within a terrestrial food chain. Nanotoxicol. 11:98-111.

     

  106. Zhao, Q.; Ma, C.; White, J.C.; Parkash Dhankher, O.; Zhang, X.; Zhang, S.; Xing, B. 2017. Quantitative evaluation of multi-wall carbon nanotube uptake by terrestrial plants. Carbon 114:661-670.

     

  107. Pasquali, F.; Agrimonti, C.; Pagano, L.; Zappettini, A.; Villani, M.; Marmiroli, M.; White, J.C.; Marmiroli, N. 2017. Nucleo-mitochondrial interaction in yeast in response to cadmium sulfide quantum dots. J. Hazard. Mat. 324:744-752.

     

  108. Servin, A.D.; De La Torre-Roche, R.; Castillo, H.; Pagano, L.; Hawthorne, J.; Musante, C.; Pignatello, J.; Uchimiya, M.; White, J.C. 2017. Exposure of agricultural crops to nanoparticle CeO2 in biochar amended soil. Plant Phys. Biochem. 110:147-157.

     

  109. Mukherjee, A.; Hawthorne, J.; White, J.C.; Kelsey, J.W. 2017. Nanoparticle Ag co-exposure reduces the accumulation of weathered persistent pesticides by earthworms. Environ. Tox. Chem. 36:1864-1871.

     

  110. Cai, F.; Shen, X.; Zhang, M.; Chen, W.; Gao, Q.; White, J.C.; Tao, S.; Wang, X. 2017. Impact of TiO2 nanoparticles on lead uptake and bioaccumulation in rice (Orza sativa L.) NanoImpact. 5:101-108.

     

  111. Bradfield, S.; Kumar, P.; White, J.C.; Ebbs, S. 2017. Zinc, copper, or cerium accumulation from metal oxide nanoparticles or ions in sweet potato: Yield effects and projected dietary intake from consumption. Plant Phys. Biochem. 110-128-137.

     

  112. Zhang, W.; Musante, C.; White, J.C.; Schwab, P.; Wang, Ebbs, S.D.; Ma, X. 2017. Bioavailability of cerium oxide nanoparticles to Raphanus sativus L. in two soils. Plant Phys. Biochem. 110:185-193.

     

  113. Zhang, Z.; Guo, H.; Carlisle, T.; Mukherjee, A.; Kinchla, A.; White, J.C.; Xing, B.; He, L. 2016. Evaluation of postharvest washing on Ag NPs removal from spinach leaves. J. Agric. Food Chem. 64:6916-6922.

     

  114. Guo, H.; Xing, B.; White, J.C.; Mukherjee, A.; He, L. 2016. Ultra-sensitive determination of silver nanoparticles by Surface-enhanced Raman Spectroscopy after hydrophobization-mediated extraction. Analyst 141:5261-5264.

     

  115. Deng, Y.; Eitzer, B.; White, J.C.; Xing, B. 2017. Impact of multiwall carbon nanotubes on the accumulation and distribution of carbamazepine in collard greens (Brassica oleracea). ES: Nano 4:149-159.

     

  116. Noori, A.; White, J.C.; Newman, L.A. 2017. Mycorrhizal fungi influence silver uptake and membrane protein gene expression following Ag-NPs exposure. J. Nano. Res. 19:66.

     

  117. Marmiroli, N.; White, J.C. 2016. Editorial: Nanotoxicology and environmental risk assessment of engineered nanomaterials (ENMs) in plants. Front. Plant Sci. 7:1370

     

  118. Elmer, W.; White, J.C. 2016. The use of metallic oxide nanoparticles to enhance growth of tomatoes and eggplants in disease infested soil or soilless medium. Environ. Sci: Nano. 3:1072-1079.

     

  119. Ma, C.; Liu, H.; Guo, H.; Musante, C.; Coskun, S.H.; Nelson, B.C.; White, J.C.; Dhanker, O.P.; Xing, B. 2016. Defense mechanisms and nutrient displacement in Arabidopsis thaliana upon exposure to CeO2 and In2O3 nanoparticles. Environ. Sci: Nano. 3:1369-1379.

     

  120. Zhao, J.; Cao, X.; Wang, Z.; Zhang, C.; White, J.C.; Xing, B. 2016. Interactions of CuO nanoparticles with the algae Chlorella pyrenoidosa: Adhesion, uptake, and toxicity. Nanotox. 10(9): 1297–1305.

     

  121. Pagano, L.; Servin, A.D.; De La Torre-Roche, R.; Mukherjee, A.; Majumdar, S.; Hawthorne, J.; Marmiroli, M.; Maestri, E.; Marra, R.; Parkash Dhankher, O.; Isch, S.M.; White, J.C.; Marmiroli, N. 2016. Molecular response of crop plants to engineered nanomaterial exposure. Environ. Sci. Technol. 50:7198–7207.

     

  122. Wang, Z.; Xu, L.; Wang, X.; White, J.C.; Xing, B. 2016. CuO nanoparticle interaction with Arabidopsis thaliana: Toxicity, parent-progeny transfer, and gene expression. Environ. Sci. Technol. 50:6008-6016.

     

  123. Ma, X.; Wang, Q.; Rossil, L.; Ebbs, S.D.; White, J.C. 2016. Multi-generational exposure to cerium oxide nanoparticles: Physiological and biochemical analysis reveals transmissible changes in rapid cycling Brassica rapa. NanoImpact 1:45-64.  

     

  124. Holden, T.; White, J.C.; et al. 2016. Considerations of environmentally-relevant test conditions for improved evaluation of ecological hazards of engineered nanomaterials. Environ. Sci. Technol. 50: 6124–6145.

     

  125. Ebbs, S.; Bradfield, S.; Kumar, P.; White, J.C.; Ma, X. 2016. Modeling dietary intake of zinc and copper from consumption of carrot (Daucus carota) exposed to metal oxide nanoparticles and metal ions. Front. Plant. Sci. 3:114-126.

     

  126. Chen, G.; Ma, C.; Mukherjee, A.; Musante, C.; Zhang, J.; White, J.C.; Parkash Dhankher, O.;  Xing, B. 2016. Tannic acid alleviates neodymium oxide nanoparticle toxicity to pumpkin: Physiological and molecular mechanisms. Nanotox. 10:1243-1253.

     

  127. Servin, A.D.; White, J.C. 2016. Nanotechnology and agriculture: Next steps for understanding the balance between applications and implications. NanoImpact 1:9-12.

     

  128. Mukherjee, A.; Majumdar, S.; Servin, A.; Pagano, L.; Parkash-Dhanker, O.; White, J.C. 2016. Carbon nanomaterials in agriculture: A critical review. Front. Plant Sci. 7:172.

     

  129. Mosa, K.; Kumar, K.; Chhikara, S.; Musante, C.; White, J.C.; Parkash Dhankher, O. 2016. Enhanced boron tolerance in plants mediated by bidirectional transport through plasma membrane intrinsic proteins. Sci. Reports 6:21640.

     

  130. Majumdar, S.; Trujillo-Reyes, J.; Hernandez-Vieczas, J.; White, J.C.; Peralta-Videa, J.; Gardea-Torresdey, J. 2016. Cerium biomagnification in a terrestrial food chain: Influence of particle size and growth stage. Environ. Sci. Technol. 50:6782-6792.

     

  131. Eevers, N.; Beckers, B.; White, J.C.; Vangronsveld, J.; Weyens, N. 2016. Comparison between cultivable and total bacterial populations associate with Cucurbita pepo using cultivation-dependent techniques and 454 pyrosequencing. Sys. Appl. Micro. 39:58-66

     

  132. Eevers, N.; Hawthorne, J.; White, J.C.; Vangronsveld, J.; Weyens, N. 2016. Exposure of Cucurbita pepo to DDE-contamination alters the endophytic community: A cultivation dependent vs a cultivation independent approach. Environ. Poll. 209:147-154.

     

  133. Mukherjee, A.; Sun, Y.; Morelius, E.; Tamezac, C.; Bandyopadhyay, S.; Niu, G.; White, J.C.; Peralta-Videa, J.R.; Gardea-Torresdey, J. 2016. Differential toxicity of bare and hybrid ZnO nanoparticles in green peas (Pisum sativum L.): A life cycle study.   Front. Plant Sci. DOI: 10.3389/fpls.2015.01242.

     

  134. Ebbs, S.; Bradfield, S.; Kumar, P.; White, J.C.; Musante, C.; Ma, X. 2016. Accumulation of zinc, copper, or cerium in carrot (Daucus carota) exposed to metal oxide nanoparticles. Environ. Sci.: Nano. 3:114-126.

     

  135. Ma, C.; White, J.C.; Tripathi, R.D.; Xing, B.; Parkash, O. 2015. Phytotoxicity and ecological safety of engineered nanomaterials. Int. J. Plant. Environ. doi.org/10.18811/ijpen.v1i1.7110.

     

  136. Majumdar, S.; Arigi, E.A.; Choi, H.; Trujillo-Reyes, J.; Margez, J.P.F.; Almeida, I.; White, J.C.; Peralta-Videa, J.R.; Gardea-Torresey, J.L. 2015. Environmental effects of nanoceria on seed production of common bean (Phaseolus vulgaris): A proteomic analysis. Environ. Sci. Technol. 49:13283-13293.

     

  137. Yi, P.; Pigatello, J.J.; Uchimiya, M.; White, J.C. 2015. Heteroaggregation of cerium oxide nanoparticles and nanoparticles of pyrolyzed biomass. Environ. Sci. Technol. 49:13294–13303.

     

  138. De la Torre-Roche, R.; Servin, A.; Hawthorne, J.; Xing, B.; Newman, L.A.; Ma, X.; Chen, G.; White, J.C. 2015. Terrestrial trophic transfer of bulk and nanoparticle La2O3 does not depend on particle size. Environ. Sci. Technol. 49:11866–11874.

     

  139. Ma, C.; Chhikara, S.; Minocha, R.; Long, S.; Musante, C.; White, J.C.; Xing, B.; Parkash-Dhanker, O. 2015. Reduced silver nanoparticle phytotoxicity in Crambe abyssinica with enhanced glutathione production by overexpressing bacterial γ-glutamylcysteine synthase. Environ. Sci. Technol. 49:10117-10126.

     

  140. Sillen, W.; Thijs, S.; Abbamondi; G.R.; Janssen, J.; Weyens, N.; White, J.C.; Vangronsveld, J. 2015. Effects of silver nanoparticles on soil microorganisms and maize biomass are linked in the rhizosphere. Soil Biol. Biochem. 91:14-22.

     

  141. Quah, B.; Musante, C.; White, J.C.; Ma, X. 2015. Phytotoxicity, uptake and accumulation of silver with different particle sizes and chemical forms. J. Nano. Res. 17:277.

     

  142. Ma, C.; White, J.C.; Parkash Dhanker, O.; Xing, B. 2015. Metal-based nanotoxicity and detoxification pathways in higher plants. Environ. Sci. Technol. 49, 7109−7122.

     

  143. Eevers N.; Gielen M.; Sánchez-López A.; Jaspers S.; White J.C.; Vangronsveld J.; Weyens, N. 2015. Optimization of isolation and cultivation of bacterial endophytes through addition of plant extract to growth media. Environ. Micro. Reports 8:707-715.

     

  144. Bennett, J.; Bhattacharyya, S.; Chauhan, A.; Grecse, H.; Heintz, M.E.; Latshaw, M.W.; Martins, C.; Peterson-Wright, L.; Rice, D.; Smith, C.; Theisen, T.S.; Wangsness, K.; White, J.C.; Wichman, M.D. 2015. Nanotechnology and Environmental Health Laboratories: White Paper. http://www.aphl.org/AboutAPHL/publications/Documents/EH_NanotechnologyWhite Paper_42015.pdf.

     

  145. Guo, H.;  Zhang, Z.; Xing, B.; Mukherjee, A.; Musante, C.; White, J.C.; He, L. 2015. Analysis of silver nanoparticles in antimicrobial products using Surface Enhanced Raman Spectroscopy (SERS). Environ. Sci. Technol. 49:4317-4324.

     

  146. Collin, B.; Auffan, M.; Johnson, A.; Kaur, I.; Keller, A.; Lazareva, A.; Lead, J.; Ma, X.; Merrifield, R.; Svendsen, C.; White, J.C.; Unrine, J.M. 2015. Environmental release, fate and ecotoxicological effects of manufactured ceria nanomaterials. Environ. Sci.: Nano. 1:533-548.

     

  147. Servin, A.; Elmer, W.; Mukherjee, A.;  De la Torre-Roche, R.; Hamdi, H.; White, J.C.; Bindraban, P.; Dimkpa, C. 2015. A review of the use of engineered nanomaterials to suppress plant disease and enhance crop yield. J. Nano. Res. DOI:10.1007/s11051-015-2907-7.

     

  148. Servin, A.; Elmer, W.; Mukherjee, A.;  De la Torre-Roche, R.; Hamdi, H.; White, J.C.; Dimkpa, C. 2015. Nanoscale Micronutrients Suppress Disease. VFRC Report 2015/x. Virtual Fertilizer Research Center, Washington, D.C.

     

  149. Garvin, A.; Doucette, W. J.; White, J.C. 2015. Investigating differences in the root to shoot transfer and xylem sap solubility of organic compounds between zucchini, squash and soybean using a pressure chamber method. Chemosphere 130:98-102.

     

  150. Zhang, W.; Ebbs, S.D.; Musante, C.; White, J.C.; Gao, C.; Ma, X. 2015. Uptake and Accumulation of bulk and nano-sized cerium oxide particles and ionic cerium by radish (Raphanus sativus L.). J. Agric. Food Chem. 63(2):382-90

     

  151. Hamdi, H.; De La Torre-Roche, R.; Hawthorne, J.; White, J.C. 2015. Impact of non-functionalized and amino-functionalized multiwall carbon nanotubes on pesticide uptake by lettuce (Lactuca sativa L.). Nanotox. 9(2): 172–180.

     

  152. Hawthorne, J.; De la Torre Roche, R.; Xing, B.; Newman, L.A.;  Ma, X.; Majumdar, S.; Gardea-Torresdey, J.; White, J.C. 2014. Particle-size dependent accumulation and trophic transfer of cerium oxide through a terrestrial food chain. Environ. Sci. Technol. 48:13102-13109.

     

  153. Zhao, J.; Wang, Z.; White, J.C.; Xing, B. 2014. Graphene in the aquatic environment: adsorption, dispersion, toxicity and transformation. Environ. Sci. Technol. 48:9995−10009.

     

  154. Deng, Y.; White, J.C.; Xing, B. 2014. Interactions between engineered nanomaterials and agricultural crops: Implications for food safety. J. Zhejiang Univ.- SCIENCE A. 15:552-572.

     

  155. Petersen, E.J.; Henry, T.B.; Zhao, J.; MacCuspie, R.I.; Kirschling, T.L.; Dobrovolskaia, M.A.; Hackley, V.; Xing, B.; White, J.C. 2014. Identification and avoidance of potential artifacts and misinterpretations in nanomaterial ecotoxicity measurements. Environ. Sci. Technol. 48:4226-4246.

     

  156. Bai, Y.; Wu, F.; Petersen, E.J.; White, J.C.; Xing, B. 2014. 100 nanometers: A potentially inappropriate threshold for ecological effects of nanoparticles. Environ. Sci. Technol. 48:3098-3099. 

     

  157. Gardea-Torresdey, J.L.; Rico, C.M.; White, J.C. 2014. Trophic transfer, transformation, and impact of engineered nanomaterials in terrestrial environments. Environ. Sci. Technol. 48:2526–2540.

     

  158. Krol, W.J.; Eitzer, B.D.; Arsenault, T.; Incorvia-Mattina, M.; White, J.C. 2014. Significant improvements in pesticide residue analysis in food using the QuEChERS method. LC/GC North America 32:116-125.

     

  159. Kumar, K.; Mosa, K.; Chikkara, S.; Musante, C.; White, J.C.; Parkash, O. 2014. Two rice plasma membrane intrinsic proteins, OsPIP2;4 and OsPIP2;7, are involved in boron transport and tolerance. Planta 239:187-198.

     

  160. Wang, H.; Wu, F.; White, J.C.; Holder, P.A.; Xing, B. 2013. Engineered nanoparticles may induce genotoxicity. Environ. Sci. Technol. 47:13212-13214.

     

  161. De La Torre-Roche, R.; Hawthorne, J.; Deng, Y; Xing, B.; Cai, W.; Newman, L.A.; Wang, Q.; Ma, X.; Hamdi, H.; White, J.C. 2013. Multiwalled carbon nanotubes and C60 fullerenes differentially impact the accumulation of weathered pesticides in four agricultural plants. Environ. Sci. Technol. 47:12539-12547.

     

  162. Ma, C.; Chhikara, S.; Xing, B.; Musante, C.; White, J.C.; Parkash Dhankher, O. 2013. Physiological and molecular response of Arabidopsis thaliana to nanoparticle cerium and indium oxide exposure. ACS Sustain. Chem. Eng. 1:768-778.

     

  163. Kelsey, J.W.; White, J.C. 2013. Effect of C60 fullerenes on the accumulation of weathered p,p’-DDE by plant and worm species under single and multi-species conditions. Environ. Toxicol. Chem. 32:1117-1123.

     

  164. Isleyen, M.; Sevim, P.; Hawthorne, J.; Berger, W.; White J.C. 2013. Uptake and translocation of weathered chlordane and p,p′-DDTs by Cucurbita pepo hybrids. Int. J. Phytorem. 15, 861-876.

     

  165. De La Torre-Roche, R.; Hawthorne, Musante, C.; Xing, B.; Newman, L.A.; Ma, X.; White, J.C. 2013. Impact of Ag nanoparticle exposure on p,p’-DDE bioaccumulation by Cucurbita pepo (zucchini) and Glycine max (soybean). Environ. Sci. Technol. 47:718–725.

     

  166. Berger, W.; Mattina, M.I.; White, J.C. 2012. Effect of hydrogen peroxide on the uptake of chlordane by Cucurbita pepo. Plant Soil 360:135-144.

     

  167. Mosa, K.A.; Kumar, K.; Chhikara,S.; Mcdermott, J.; Liu, Z.; Musante, C.; White, J.C.; Parkash Dhankher, O. 2012. Members of rice plasma membrane intrinsic proteins subfamily are involved in arsenite permeability and tolerance in plants. Trans. Res. 21:1265-1277.

     

  168. Landa, P.; Vankova, R.; Andrlova, J.; Hodek, J.; Marsik, P.; Storchova, H.; White, J.C.; Vanek, T. 2012. Nanoparticle-specific changes in Arabidopsis thaliana gene expression after exposure to ZnO, TiO2, and fullerene soot. J. Hazard. Mat. 241-242, 55-62.

     

  169. De La Torre-Roche, R.; Hawthorne, J.; Deng, Y; Xing, B.; Cai, W.; Newman, L.A.; Wang, C.; Ma, X.; White, J.C. 2012. Fullerene-enhanced accumulation of p,p’-DDE in agricultural crop species. Environ. Sci. Technol.. 46, 9315−9323.

     

  170. Wang, Z.; Li, N.; Zhao, J.; White, J.C.; Qu, P.; Xing, B. 2012. CuO nanoparticle interaction with human epithelial cells:  Cellular uptake, export, and genotoxicity. Chem. Res. Toxicol. 25, 1512−1521.

     

  171. Isleyen, M.; Sevim, P.; White, J.C. 2012. Accumulation of weathered p,p′-DDTs in hybridized Cucurbita pepo cultivars. Environ. Toxicol. Chem. 3, 1699-1704.

     

  172. Musante, C.; White, J.C. 2012. Toxicity of silver and copper to Cucurbita pepo: Differential effects of nano and bulk size particles. Environ. Toxicol. 27, 510-517.

     

  173. Wang, Z.; Xie X.; Zhao, J.; Li, X.; Feng, W.; White, J.C.; Xing, B. 2012. Xylem- and phloem-based transport of CuO nanoparticles in maize (Zea mays L). Environ. Sci. Technol. 46, 4434-4441.

     

  174. Isleyen, M.; Sevim, P.; White, J.C. 2012. Accumulation of weathered p,p′-DDTs in grafted watermelon. J. Agric. Food Chem. 60:1113-1121.

     

  175. Hawthorne, J.; Musante, C.; Sinha, S.K.; White, J.C. 2012. Accumulation and phytotoxicity of engineered nanoparticles to Cucurbita pepo. Int. J. Phytorem. 14:429-442

     

  176. Gratz, S.; Ciolina, L.; Mohrhaus, A.; Gamble, B.; Gracie, J.; Jackson, D.; Roetting, J.; McCauley, H.; Heitkemper, D.; Fricke, F.; Krol, W.; Arsenault, T.; White, J.C.; Flottmyer, M.; Johnson, Y. 2011. Screening and determination of polycyclic aromatic hydrocarbons in seafoods using QuEChERS based extraction and high performance liquid chromatography with fluorescence detection. J. AOAC Int. 94(5):1601-1616.

     

  177. Slizovskiy, I.B.; White, J.C.; Kelsey, J.W. 2010. Technical Note: Evaluation of extraction methodologies for the determination of pesticide residues in vegetation. Int. J. Phytorem. 12:820-832.

     

  178. Chhikara, S.; Paulose, B.; White, J.C.; Parkash Dhankher, O. 2010. Understanding the Physiological and Molecular Mechanism of Persistent Organic Pollutant (POP) Uptake and Detoxification in Cucurbit Species (Zucchini and Squash). Environ. Sci. Technol. 44:7295-7301.

     

  179. White, J.C. 2010. Inheritance of p,p’-DDE Phytoextraction Ability in  Hybridized Cucurbita pepo Cultivars. Environ. Sci. Technol. 44, 5164-5169.

     

  180. Vossbrinck, C.R.; White, J.C.; Bugbee, G.J.; Prapayotin-Riveros, K.; Marko, M.; Thum, R.; LaRue, E.; Havil, N. 2010. Isolation of microsatellite markers for the water milfoil weevil Euhrychiopsis lecontei. Mol. Ecol. Resources 10:1106-1108.

     

    Stampoulis, D; Sinha, S.K.; White, J.C. 2009. Assay-dependent phytotoxicity of nanoparticles to plants. Environ. Sci. Technol. 43, 9473-9479.

     

  181. Capers, R.S.; Selsky, R.; Bugbee, G.J.; White, J.C. 2009. Species richness of both native and invasive aquatic plants influenced by environmental conditions and human activity. Botany 87:306-314.

     

  182. Liste, H-H.; White, J.C. 2009. Plant hydraulic lift of soil water:  Implications for crop production and land restoration. Plant Soil 313:1-17.

     

  183. White, J.C. 2009. Optimizing planting density for p,p’-DDE phytoextraction by Cucurbita pepo. Environ. Engin. Sci. 26, 369-375.

     

  184. Capers, R.S.; Selsky, R.; Bugbee, G.J.; White, J.C. 2009. Species richness of both native and invasive aquatic plants influenced by environmental conditions and human activity. Botany 87:306-314.

     

  185. White, J.C.; Burken, J.G. 2009. Conference Review: 4th International Phytotechnologies Conference, Denver Colorado September 24-26 2007. Int. J. Phytorem. 11:413-415.

     

  186. Capers, R.S.; Selsky, R.; Bugbee, G.J.; White, J.C. 2007. Aquatic plant community invasibility and scale dependent patterns in native, invasive species richness. Ecology 88:3135-3143.

     

  187. Peters, R.P.; Kelsey, J.W.; White, J.C. 2007. Differences in p,p’-DDE bioaccumulation from compost and soil by the plants Cucurbita pepo and C. maxima and the earthworms Eisenia fetida and Lumbricus terrestris. Environ. Poll.  148:539-545..

     

  188. White, J.C.; Peters, R.P.; Kelsey, J.W. 2007. Surfactants impact p,p’-DDE accumulation by plant and earthworm species. Environ. Sci. Technol. 41:2922-2929.

     

  189. Gent, M.P.N.; White, J.C.;.Parrish, Z.D.; Isleyen, M.; Eitzer, B.D; Mattina, M.I. 2007. Uptake and translocation of p,p’-dichlorodiphenyldichloroethylene supplied in hydroponics solution to cucurbita. Environ. Tox. Chem. 12:2467-2475.

     

  190. Gent, M.P.N.; White, J.C.; Eitzer, B.D.; Mattina, M.I. 2007. Modeling the difference among cucurbita in uptake and translocation of p,p’-dichlorodiphenyldichloroethylene. Environ. Tox. Chem. 12:2476-2485.

     

  191. White, J.C.; Ross, D.R.; Gent, M.P.N.; Eitzer, B.D.; Mattina, M.I. 2006. Effect of mycorrhizal fungi on the phytoextraction of weathered p,p’-DDE by Cucurbita pepo. J. Hazard. Mat. B137:1750-1757.

     

  192. White, J.C.; Parrish, Z.D.; Iseleyen, M.; Gent, M.P.N.; Iannucci-Berger, W.; Eitzer, B.D.; Mattina, M.I. 2006. Soil amendments, plant age, and intercropping impact DDE bioavailability to C. pepo. J. Environ. Qual. 35:992-1000.

     

  193. Kelsey, J.W.; Colino, A.; Koberle, M.; White, J.C. 2006. Growth conditions impact DDE accumulation in Cucurbita pepo. Int. J. Phytorem. 8:261-271.

     

  194. Parrish, Z.D; White, J.C.; Iseleyen, M.; Gent, M.P.N.; Iannucci-Berger, W.; Eitzer, B.D.; J.W. Kelsey, Mattina, M.I. 2006. Accumulation of weathered polycyclic aromatic hydrocarbons (PAHs) by plant and earthworm species. Chemosphere 64:609-618.

     

  195. Mattina, M.I.; Isleyen, M.; Eitzer, B.D.; Iannucci-Berger, W.; White, J.C. 2006. Uptake by Cucurbitaceae of soil-borne contaminants depends upon plant genotype and pollutant properties. Environ. Sci. Technol. 40:1814-1821.

     

  196. White, J.C.; Parrish, Z.D.; Iseleyen, M.; Gent, M.P.N.; Iannucci-Berger, W.; Eitzer, B.D.; Kelsey, J.W.; Mattina, M.I. 2006.  Influence of citric acid amendments on the availability of weathered PCBs to plant and earthworm species. Int. J. Phytoremed. 8:63-79.

     

  197. Gent, M.P.N.; Parrish, Z.D.; White, J.C. 2005. Exudation of citric acid and nutrient uptake among subspecies of cucurbita. J. Am. Soc. Hort. Sci.130(5):782-788.

     

  198. White, J.C.; Parrish, Z.D.; Iseleyen, M.; Gent, M.P.N.; Iannucci-Berger, W.; Eitzer, B.D.; Mattina, M.I.  2005. Uptake of weathered p,p’-DDE by plant species effective at accumulating soil elements. Microchem. J. 81:148-155.

     

  199. Kelsey, J.W.; White, J.C. 2005. Multi-species interactions impact the accumulation of weathered 2,2-bis(p-chlorophenyl1)-1,1-dichloroethylene (p,p'-DDE) from soil.  Environ. Poll. 137:222-230.

     

  200. White, J.C.; Parrish, Z.D; Iseleyen, M.; Gent, M.P.N.; Iannucci-Berger, W.; Eitzer, B.D.; Mattina, M.I.  2005. Influence of nutrient amendments on the phytoextraction of weathered p,p’-DDE by cucurbits. Environ. Toxicol. Chem. 24:987-994.

     

  201. Kelsey, J.W.; Colina, A.; White, J.C. 2005. Effect of species differences, pollutant concentration, and residence time in soil on the bioaccumulation of p,p’-DDE by three earthworm species. Environ. Toxicol. Chem. 24:703-708.

     

  202. Wang, X.; White, J.C.; Gent, M.P.N.; Iannucci-Berger, W.; Eitzer, B.D; Mattina, M.I. 2004. Phytoextraction of weathered p,p’-DDE by zucchini (Cucurbita pepo) and cucumber (Cucumis sativus) under different cultivation conditions. Int. J. Phytoremed. 6:363-385.

     

  203. Gent, M.P.N.; Parrish, Z.D.; White, J.C. 2004. Phytoextraction of field-weathered DDE by subspecies of cucurbita and exudation of citric acid from roots” Proceedings of the 20th Annual International Conference on Soils, Sediments, and Water; Held October 18-21 at the University of Massachussetts, Amherst MA.

     

  204. Mattina, M.I.; Iannucci-Berger, W.; Eitzer, B.D.; White, J.C. 2004. Rhizotron study of Cucurbitaceae: Transport of soil bound chlordane and heavy metal contaminants differ with genera. Environ. Chem., 2004, 1:86-89.

     

  205. Braida, W.; White, J.C.; Pignatello, J.J. 2004. Indices for bioavailability and biotransformation potential of contaminants in soils. Environ. Toxicol. Chem.23:1585-1591.

     

  206. Mattina, M.I; Eitzer, B.D.; Iannucci-Berger, W.; Lee, W-Y.; White, J.C. 2004. Plant uptake and translocation of highly weathered, soil-bound technical chlordane residues: Data from field and rhizotron studies. Environ. Tox. Chem. 23:2756-2762.

     

  207. White, J.C.; Wang, X., Gent, M.P.N.; Iannucci-Berger, W.; Eitzer, B.D.; Schultes, N.P.; Arienzo, M.; Mattina, M.I. 2003. Subspecies-level variation in the phytoextraction of weathered p,p’-DDE by Cucurbita pepo. Environ. Sci. Technol. 37:4368-4373.

     

  208. Lee, W.-Y.; Iannucci-Berger, W.; Eitzer, B.D.; White, J.C.; Mattina, M.I. 2003. Plant Uptake and Translocation of Air-Borne Chlordane and Comparison with the Soil-to-Plant Route. Chemosphere  53:111-121.

     

  209. Mattina, M.I.; Iannucci-Berger, W.; Musante, C.; White, J.C. 2003. Concurrent plant uptake of heavy metals and persistent organic pollutants from soil. Environ. Poll. 124:375-378

     

  210. White, J.C.; Mattina, M.I.; Lee, W-Y; Eitzer, B.D.; Iannucci-Berger, W. 2003. Role of organic acids in enhancing the uptake of weathered p,p’-DDE by plants. Environ. Poll. 124:71-80.

     

  211. Bugbee, G.J.; White, J.C., Krol, W.J. 2003. Control of variable watermilfoil with 2,4-D in Bashan Lake, Connecticut:  2,4-D monitoring in lakes and wells. J. Aquatic Plant Manag. 41:18-25.

     

  212. Lee, W-Y; Iannucci-Berger, W.; Eitzer, B.D.; White, J.C.; Mattina, M.I. 2003. Persistent organic pollutants in the environment:  Chlordane residues in Compost. J. Environ. Qual. 32:224-231.

     

  213. Braida, W.J.; White, J.C.; Zhao, D.; Ferrandino, F.J.; Pignatello, J.J. 2002. Concentration-dependent kinetics of pollutant desorption from soils. Environ. Toxicol. Chem. 12:2573-2580.

     

  214. Zhao, D.; Hunter, M.; Pignatello, J.J.; White, J.C. 2002. Application of the dual-mode model for predicting competitive sorption equilibria and rates of polycyclic aromatic hydrocarbons in estuarine sediment suspensions. Environ. Toxicol. Chem. 21:2267-2282.

     

  215. White, J.C. 2002. Differential bioavailability of field-weathered p,p’-DDE to plants of the Cucurbita and Cucumis genera. Chemosphere 49:143-152.

     

  216. White, J.C.; Kottler, B.D. 2002. Citrate-mediated increase in the uptake of weathered p,p’-DDE residues by plants. Environ. Toxicol. Chem. 21:550-556.

     

  217. Mattina, M.I.; White, J.C.; Eitzer, B.D.; Iannuci-Berger, W. 2002. Cycling of weathered chlordane residues in the environment: compositional and chiral profiles in contiguous soil, vegetation, and air compartments. Environ. Toxicol. Chem. 21:281-288.

     

  218. White, J.C.; Mattina, M.I.; Eitzer, B.D.; Iannuci-Berger, W. 2002. Tracking chlordane compositional and chiral profiles in soil and vegetation. Chemosphere. 47:639-646.

     

  219. White, J.C.; Triplett, T. 2002. Polycyclic aromatic hydrocarbons in the sediments and fish of the Mill River, New Haven, CT. Bull. Environ. Contam. Toxicol. 68:104-110.

     

  220. White, J.C. 2001. Plant-facilitated mobilization and translocation of weathered p,p’-DDE from an agricultural soil. Environ. Toxicol. Chem. 20:2047-2052.

     

  221. Braida, W.; White, J.C.; Ferrandino, F.J.; Pignatello, J.J. 2001. Effect of solute concentration on sorption of polyaromatic hydrocarbons in soil: Uptake rates. Environ. Sci. Technol.35:2766-2772.

     

  222. Zhao, D; Pignatello, J.J.; White, J.C.; Braida, W.; Ferrandino, F. 2001. Dual-mode modeling of competitive and concentration-dependent sorption and desorption kinetics of polycyclic aromatic hydrocarbons in soils.  Water Resour. Res. 37:2205-2212.

     

  223. Kottler, B.D.; White, J.C.; Kelsey, J.W. 2001. Influence of soil moisture on the sequestration of organic compounds in soil. Chemosphere. 42:891-896.

     

  224. White, J.C.  2000. Phytoremediation of weathered p’p’-DDE residues in soil. Internat. J. Phytoremed.  2:133-144.

     

  225. White, J.C.; Braida, W.; Ferrandino, F.J.; Pignatello, J.J. 2000. Effect of initial solute concentration on the sorption and desorption kinetics of polycyclic aromatic hydrocarbons in soil. Proceedings of the 32nd Mid-Atlantic Industrial and Hazardous Waste Conference, June 2000.

     

  226. White, J.C. and J.J. Pignatello. 1999. Influence of bisolute competition on the kinetics of desorption of polycyclic aromatic hydrocarbons (PAHs) in soil.  Environ. Sci. Technol. 33:4292-4298.

     

  227. White, J.C., M. Hunter, K. Nam, J.J. Pignatello, and M. Alexander. 1999. Correlation between the biological and physical availabilities of phenanthrene in soils and soil humin in aging experiments. Environ. Toxicol. Chem. 18:1720-1727.

     

  228. White, J.C., M. Hunter, J.J. Pignatello, and M. Alexander. 1999. Increase in the bioavailability of aged phenanthrene in soils by competitive displacement with pyrene. Environ. Toxicol. Chem. 18:1728-1732.

     

  229. White, J.C., Ravikovitch, P.I., Russo, R., Neimark, A., Pignatello, J.J. 1998. In 1996-1998 Bioremediation Research Program Review; EPA/600/R-89/122; U.S. Environmental Protection Agency; Washington, D.C., pp 19-20.

     

  230. White, J.C., M. Alexander, and J.J. Pignatello. 1998. Enhancing the availability of organic compounds sequestered in soil and aquifer solids. Environ. Toxicol. Chem. 18:182-187.

     

  231. White, J.C., A. Quinones-Rivera, and M. Alexander. 1998. Effect of wetting and drying cycles on the bioavailability of organic compounds sequestered in soil. Environ. Toxicol. Chem. 17:2378-2382.

     

  232. White, J.C., J.W. Kelsey, P.B. Hatzinger, and M. Alexander. 1997. Factors affecting sequestration and bioavailability of phenanthrene in soils. Environ. Toxicol. Chem. 16:2040-2045.

     

  233. White, J.C. and M. Alexander. 1996. Reduced biodegradability of desorption-resistant fractions of polycyclic aromatic hydrocarbons in soil and aquifer solids. Environ. Toxicol. Chem. 15:1973-1978.

     

    Books

    Marmiroli, N.; White, J.C., Song, J. 2018. Exposure to Engineered Nanomaterials: Fate and Effects on Humans and the Environment. Elsevier, Kidlington, Oxford, OX5 1GB, UK.

     

    Book Chapters

    Pullagurala, V.L.R.; Adisa, I.O.;  Rawat, S.; White, J.C.; Zuverza-Mena, N.; Hernandez-Viezcas, J.A.; Peralta-Videa, J.R.; Gardea-Torresdey, J.L. 2018. Fate and effects of ENMs in agroenvironments. In: “Exposure to Engineered Nanomaterials: Fate and Effects on Humans and the Environment.” Marmiroli, N.; White, J.C.; Song, J. (eds). Elsevier, Kidlington, Oxford, OX5, 1GB, UK.

     

    Niazi, N.K.; Murtaza, M.; Bibi, I.; Shahid, M.; White, J.C.; Nawaz, M.F.; Bashir, S.; Murtaza, G. 2016. Removal and recovery of metals by bisorbents and biochars derived from biowastes. In: “Environmental Materials and Waste: Resource Recovery and Pollution Prevention.” Elsevier, Kidlington, Oxford, OX5 1GB, UK.

     

    White, J.C.; Gardea-Torresdey, J. 2015. Effects and uptake of nanoparticles on plants. In: “Biophysico-chemical Processes in Environmental Systems;” International Union of Pure and Applied Chemistry (IUPAC), John Wiley and Sons, Hoboken, NY, USA.

     

    White, J.C.; Newman, L.A. 2010. Phytoremediation of soils contaminated with organic pollutants. In: “Biophysico-chemical Processes in Environmental Systems: Engineered Nanoparticles and the Environment;” International Union of Pure and Applied Chemistry (IUPAC), John Wiley and Sons, Hoboken, NY, USA.

     

    White, J.C. 2008. Phytoremediation of persistent organic pollutants, in Phytoremediation, [Ed. Lee A. Newman], in Ecyclopedia of Life Support Systems (EOLSS), Developed under the Auspices of the UNESCO, EOLSS Publishers, Oxford, UK, [http://www.eolss.net].

     

    White, J.C. and Zeeb, B.A. 2007. Plant phylogeny and the remediation of POPs. In: Phytoremediation: Methods in Biotechnology.  Ch. 16, Humana Press, Totowa, NJ.

     

    Gent, M.P.N., Parrish, Z.D., and White, J.C. 2005. Phytoextraction of field weathered DDE by subspecies of Cucurbita and exudation of citric acid from roots. In: Contaminated soils, sediments, and water. Volume 10: Successes and Challenges, E.J. Calabrese, P.T. Kostecki, and Dragun, J (Eds). Springer.