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Kathleen Kosta

California Department of Food and Agriculture

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Featured researches published by Kathleen Kosta.

Plant Health Progress | 2014

Steaming Inactivates Phytophthora ramorum, Causal Agent of Sudden Oak Death and Ramorum Blight, from Infested Nursery Soils in California

Wolfgang Schweigkofler; Kathleen Kosta; Vernon Huffman; Supriya Sharma; Karen Suslow; Sibdas Ghosh

Schweigkofler, W., Kosta, K., Huffman, V., Sharma, S., Suslow, K., and Ghosh, S. 2014. Steaming inactivates Phytophthora ramorum, causal agent of Sudden Oak Death and ramorum blight, from infested nursery soils in California. Plant Health Progress doi:10.1094/PHP-RS-13-0111. Nursery trade plays a major role in the long-distance spread of Phytophthora ramorum, the causal agent of Sudden Oak Death (SOD) and ramorum blight of ornamental plants. Under federal regulations, nurseries found positive for P. ramorum must destroy infected plants and treat infested soils. The use of steam is an effective method to thermally inactivate P. ramorum from nursery soils as demonstrated at the National Ornamental Research Site at Dominican University (NORSDUC) and one commercial nursery in the Central Valley of California. Heating up the top soil layer (0-30 cm) to 50°C for 120 minutes resulted in complete thermal inactivation of P. ramorum. Consequently, the commercial nursery was released from federal quarantine. Steaming can be a fast, reliable and sustainable option for treating nursery soils.

Plant Disease | 2018

First Report of Boxwood Blight Caused by Calonectria pseudonaviculata in California

C. L. Blomquist; Kathleen Kosta; P. F. Santos; S. Rooney-Latham

Plant Disease | 2018

Phytophthora species are common on nursery stock grown for restoration and revegetation purposes in California.

S. Rooney-Latham; C. L. Blomquist; Kathleen Kosta; Ying Yi Guo; Patrick Woods; Marinell C Soriano

Proceedings of the sudden oak death sixth science symposium. Gen. Tech. Rep. GTR-PSW-255. Albany, CA: U.S. Department of Agriculture, Forest Service, Pacific Southwest Research Station: 87. | 2017

Thermal inactivation of infested plants, nursery equipment, and soil is a management option for the treatment of Phytophthora ramorum , causal agent of sudden oak death

Wolfgang Schweigkofler; Vernon Huffman; Karen Suslow; Kathleen Kosta

Plant Health Progress | 2017

Monitoring Using a Sentinel Plant System Reveals Very Limited Aerial Spread of Phytophthora ramorum From Infected Ornamental Plants in a Quarantine Research Nursery

Thomas Pastalka; S. Rooney-Latham; Kathleen Kosta; Karen Suslow; Vernon Huffman; Sibdas Ghosh; Wolfgang Schweigkofler

Biological Control | 2017

Remediation of Phytophthora ramorum-infested soil with Trichoderma asperellum isolate 04-22 under ornamental nursery conditions

Timothy L. Widmer; Sheila Johnson-Brousseau; Kathleen Kosta; Sibdas Ghosh; Wolfgang Schweigkofler; Supriya Sharma; Karen Suslow

Archive | 2014

Environmental-friendly Control Methods can Inactivate the Invasive Plant Pathogen Phytophthora ramorum, Causal Agent of Sudden Oak Death, in Nursery Soils

Wolfgang Schweigkofler; Kathleen Kosta; Vernon Huffman; T. Pastalka; Supriya Sharma; Karen Suslow

Proceedings of the sudden oak death sixth science symposium. Gen. Tech. Rep. GTR-PSW-255. Albany, CA: U.S. Department of Agriculture, Forest Service, Pacific Southwest Research Station: 88-90. | 2013