M. Basile scite author profile

Agron. Sustain. Dev. 28 (2008) Abstract -Phase-out of methyl bromide and health concerns related to the use of pesticides are increasing the interest in alternative control strategies. Soil solarization is an effective, safe and cheap technique for the control of soil-borne pathogens and weeds. However, knowledge of the long-term effects of solarization, as well as of repeated solarization cycles, is scarce. Such knowledge should in particular help to minimize the number of solarization treatments. Therefore, we tested the residual effect of a single solarization treatment and the effects of two or three solarization cycles on root-knot nematodes, weeds and crop yield for three years on greenhouse-grown tomato and melon. Soil solarization was applied for either one, two or three consecutive years on a soil infested by the root-knot nematode Meloidogyne javanica and many annual and perennial weed species. An untreated soil was used as a control. At the end of each crop cycle yield parameters were recorded, weeds were identified and counted, and nematode infestation was evaluated. Our results show that a single solarization treatment significantly increased yields by +116%, and strongly reduced nematode infestation of −99% of infested plants and of −98% of the root gall index in the following melon crop. It also suppressed annual weed emergence three years later. Plant yields from two-and three-year solarized soil were always higher than nonsolarized control: +284% and +263%, respectively, for tomato, and +162% and +368%, respectively, for melon. Further, twoand three-year solarization treatments almost completely suppressed the infestation of the M. javanica nematode in tomato, and reduced the nematode effect in melon by −86% and −79%, respectively. Repeated solarization treatments also resulted in a high reduction of emergence of most weed species in all crop cycles. A single soil solarization treatment was shown to be effective for a long-term sustainable management of weeds, whereas the time-limited effectiveness against root-knot nematodes can be enhanced through two-or three-year repeated treatments.solarization / nematodes / weeds / yield / tomato / melon

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Soil Solarization and Sustainable Agriculture

D’Addabbo¹,

Miccolis

Basile³

et al. 2009

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A study of some factors affecting volatilization losses of 1,3-dichloropropene (1,3-D) from soil

Basile

Senesi

Lamberti

1986

Agriculture, Ecosystems & Environment

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Treatments of soil—nematological aspects¹

1986

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Treatments of soil to control plant parasitic nematodes constitute a complex problem because product losses, costs of treatments, efficiency of control and increases of yield are subject to multiple variables. To evaluate the situation, the whole system should be as carefully as possible analysed: nematode species must be identified and population densities determined; economical thresholds and the pedoclimatic conditions which affect distribution and persistence of nematicides should be investigated; rate of mortality that nematicides will induce at different doses and their side‐effects on plants and environment need to be known. Although a great amount of information is available, this is often rather scattered, so much work is yet to be done. Integrated control is at present the only economical answer.

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Potential of a Corn Starch-Based Biodegradable Plastic Film for Soil Solarization

Castronuovo¹,

Candido²,

Margiotta³

et al. 2005

Acta Hortic.

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M. Basile

Greenhouse soil solarization: effect on weeds, nematodes and yield of tomato and melon

Soil Solarization and Sustainable Agriculture

A study of some factors affecting volatilization losses of 1,3-dichloropropene (1,3-D) from soil

Treatments of soil—nematological aspects¹

Potential of a Corn Starch-Based Biodegradable Plastic Film for Soil Solarization

Contact Info

Product

Resources

About

M. Basile

Greenhouse soil solarization: effect on weeds, nematodes and yield of tomato and melon

Soil Solarization and Sustainable Agriculture

A study of some factors affecting volatilization losses of 1,3-dichloropropene (1,3-D) from soil

Treatments of soil—nematological aspects1

Potential of a Corn Starch-Based Biodegradable Plastic Film for Soil Solarization

Contact Info

Product

Resources

About

Treatments of soil—nematological aspects¹