Förster). Fruit of ‘Gem’ and ‘Beurré Anjou’ were evaluated using artificial inoculations for resistance to three common postharvest fruit rot diseases, gray mold [ Botrytis cinerea (De Bary) Whetzel], blue mold ( Penicillium expansum Link), and Mucor
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Richard L. Bell, Tom van der Zwet, Steve Castagnoli, Todd Einhorn, Janet D. Turner, Robert Spotts, Gary A. Moulton, Greg L. Reighard, and William W. Shane
Xiaoyuan Feng, Baogang Wang, Wensheng Li, Lei Shi, Jiankang Cao, and Weibo Jiang
Penicillium expansum Postharvest Biol. Technol. 34 11 20 Damayanti, M. Susheela, K. Sharma, G.J. 1996 Effect of plant extracts and systemic fungicide on the pineapple fruit-rotting fungus Ceratocystis
Morgan L. Cromwell, Lorraine P. Berkett, Heather M. Darby, and Takamaru Ashikaga
but have shown antifungal properties against postharvest apple diseases [ Botrytis cinerea (pers.) ex Fr., Penicillium expansum Thom., and Glomerella cingulata (Ston.) Spauld. & Schrenk] ( Moline and Locke, 1993 ). These materials were labeled as
Shirin Shahkoomahally and Asghar Ramezanian
treatment induces resistance of peach ( Prunus persica L. cv. Jiubao) fruit to infection by Penicillium expansum and enhances activity of fruit defense mechanisms Postharvest Biol. Technol. 35 263 269 Luna-Guzmán, I. Cantwell, M. Barrett, D.M. 1999 Fresh
Ibrahim I. Tahir and Hilde Nybom
Penicillium expansum Postharvest Biol. Technol. 34 11 20 de Castro, E. Biasi, W.V. Mitcham, E.J. 2007 Quality of Pink Lady apples in relation to maturity at harvest, prestorage treatments, and controlled atmosphere during storage HortScience 42 605 610 Delate
Luiz C. Argenta, Sérgio T. de Freitas, James P. Mattheis, Marcelo J. Vieira, and Claudio Ogoshi
the Nordic region of Europe (Nybom et al., 2016). In northern Greece, the most important pathogens leading to postharvest losses in ‘Fuji’ apples were Penicillium expansum , Alternaria sp., and Botrytis cinerea (Konstantinou et al., 2011). In the
En-chao Liu, Li-fang Niu, Yang Yi, Li-mei Wang, You-wei Ai, Yun Zhao, Hong-xun Wang, and Ting Min
, W.J. Sams, C.E. Leblanc, E. 2000 Survival and growth of Listeria monocytogenes on fresh-cut apple slices and its interaction with Glomerella cingulata and Penicillium expansum Plant Dis. 84 177 181 Dong, T.T. Shi, J.Y. Jiang, C.Z. Feng, Y.Y. Cao
Zhengke Zhang, Yu Zhang, Donald J. Huber, Jingping Rao, Yunjing Sun, and Shanshan Li
. 5 67 76 Wang, Y.S. Tian, S.P. Xu, Y. Qin, G.Z. Yao, H.J. 2004 Changes in the activities of pro- and anti-oxidant enzyme in peach fruit inoculated with Cryptococcus laurentii or Penicillium expansum at 0 °C or 20 °C Postharvest Biol. Technol. 34
Babak Madani, Marisa Wall, Amin Mirshekari, Alagie Bah, and Mahmud Tengku Muda Mohamed
Penicillium expansum in vitro and on the biocontrol activity of Candida oleophila Plant Pathol. 44 1016 1024 10.1111/j.1365-3059.1995.tb02660.x Zharare, G.E. Asher, C.J. Blamey, F.P.C. 2009 Calcium nutrition of peanut grown in solution culture. I. Genetic
Jun Tang, Kang-Di Hu, Lan-Ying Hu, Yan-Hong Li, Yong-Sheng Liu, and Hua Zhang
batatas, Salix matsudana, and Glycine max J. Integr. Plant Biol. 51 1084 1094 Zheng, X. Yu, T. Chen, R. Huang, B. Wu, V.C. 2007 Inhibiting Penicillium expansum infection on pear fruit by Cryptococcus laurentii and cytokinin Postharvest Biol. Technol