Abstract
BackgroundStrawberry (Fragaria ananassa Duch.) is an economically important crop in Egypt. Yet complex black root rot disease of strawberry caused by Fusarium solani, Rhizoctonia solani, and Pythium sp. can cause considerable yield losses. Therefore, this study aimed at evaluating different aspects of soil solarization against this disease. Such an evaluation would better be viewed in the context of other beneficial effects of soil solarization on nematodes and weeds.Materials/methodsGrowth agar disks, growth suspension, and resting stages of strawberry black root rot fungi were evaluated at different temperatures and exposure times using digital hot water bath. Cloth bags artificially infested with single fungal species were buried into the soil before soil solarization at soil depths of 1–10, 11–20, and 21–30 cm at three spots of each plot for each of the abovementioned fungi for 3, 6, or 9 weeks. The disease incidence and severity in solarized and un-solarized soil was compared with the application of the fungicide Actamyl. Effects of soil solarization on nematodes and weeds were also consulted.ResultsThe lethal temperature to F. solani, Pythium sp., and R. solani was 58, 58, and 56 °C, respectively when exposure time was 1 min. Chlamydospores were killed at 62 °C while sclerotia were killed at 58 °C in hot water for 1 min. Maximum soil temperature in solarized soil was raised by 15, 14, and 12 °C at depths of 1–10, 11–20, and 21–30 cm as compared with non-solarized soil. Solarization for 3, 6, and 9 weeks significantly reduced the disease incidence and severity and increased the strawberry yield. Complete reduction in total count of all tested fungi was obtained after 9 weeks at all tested depths. A review of collective soil pest and pathogen control via solarization documented its beneficial application.ConclusionThe study may exploit hot months in Egypt for soil solarization against the serious root rot disease either singly or in an integrated pest management program.
Highlights
Strawberry (Fragaria ananassa Duch.) is an economically important crop in Egypt
In addition to evaluating the effect of soil solarization for different periods against strawberry black root rot and fruit yield, we briefly reviewed the beneficial effects of solarization on plantparasitic nematodes (PPN) and weeds
Testing of hot-water treatments on viability of black root rot fungi Viability of agar disks with mycelia and resting stages of R. solani, F. solani, and Pythium sp. was examined according to the method described by Whiting et al (2001)
Summary
Strawberry (Fragaria ananassa Duch.) is an economically important crop in Egypt. Yet complex black root rot disease of strawberry caused by Fusarium solani, Rhizoctonia solani, and Pythium sp. can cause considerable yield losses. Strawberry black root rot ranks high among common diseases that can cause considerable yield losses in Egypt (El-Shemy et al 2013). This disease is caused by several soil-borne fungal pathogens (Fang et al 2012; Ahmed and El-Fiki 2017) such as Fusarium oxysporum (Juber et al 2014), Macrophomina phaseolina (Hutton et al 2013), Pythium spp. This complex disease is characterized by feeder rootlet killing, plant deterioration and blackening of the main root system as well as a decline in vigor and productivity of the plant stand causing a decrease in the crop yield (Abdel-Sattar et al 2008; Fang et al 2012; Ceja-Torres et al 2014)
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