2013
DOI: 10.2134/jeq2013.03.0072
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Water and Methyl Isothiocyanate Distribution in Soil after Drip Fumigation

Abstract: Methyl isothiocyanate (MITC) generators, such as metam sodium (Met-Na), are used for soil fumigation of agricultural land. The ban on the fumigant methyl bromide has resulted in greater use of MITC generators. To understand the efficacy of MITC, it is necessary to assess its generation and disappearance kinetics when Met-Na is applied to soil. This study evaluated the movement of water and distribution and dissipation of MITC in soil after application of Met-Na through surface drip irrigation systems. The effe… Show more

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Cited by 9 publications
(12 citation statements)
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“…This module allows users to specify additional injections of fumigants into the transport domain at a specific location at a specific time as well as to consider the presence or absence of a surface tarp, the temperature dependence of tarp properties, and the removal of tarp at a certain time. The Fumigant module has been used recently to investigate the effects of different application scenarios (such as tarped broadcast, tarped bedded shank injection, or tarped drip line‐source application) and various factors (such as initial water content or tarp permeability) on fumigant volatilization (Nelson et al, 2013; Spurlock et al, 2013a,b). Figure 3 summarizes one example. The Classic Slope Module: One frequent application of HYDRUS has been to obtain subsurface flow conditions (i.e., relative saturations and water fluxes) for subsequent slope‐stability analyses using other programs.…”
Section: Hydrus Developments Since 2008mentioning
confidence: 99%
“…This module allows users to specify additional injections of fumigants into the transport domain at a specific location at a specific time as well as to consider the presence or absence of a surface tarp, the temperature dependence of tarp properties, and the removal of tarp at a certain time. The Fumigant module has been used recently to investigate the effects of different application scenarios (such as tarped broadcast, tarped bedded shank injection, or tarped drip line‐source application) and various factors (such as initial water content or tarp permeability) on fumigant volatilization (Nelson et al, 2013; Spurlock et al, 2013a,b). Figure 3 summarizes one example. The Classic Slope Module: One frequent application of HYDRUS has been to obtain subsurface flow conditions (i.e., relative saturations and water fluxes) for subsequent slope‐stability analyses using other programs.…”
Section: Hydrus Developments Since 2008mentioning
confidence: 99%
“…CP controls insects and fungi, but it has less activity against nematodes and weeds (Ajwa and Trout, 2004). The most promising MeBr alternatives are chloropicrin and Met-Na (Gao et al, 2012;Jacoby, 2016;Klose et al, 2008;Yates et al, 2002); therefore, more than 7000 tons of chloropicrin were used in 2011 (Nelson et al, 2013) in California.…”
mentioning
confidence: 99%
“…It is difficult to find a chemical with biological, chemical, and physical properties similar to those of MeBr that will pass regulations and that is relatively easy to transport and apply. MeBr has a boiling point of 4.5°C and a vapor pressure of 218.6 kPa; however, for MITC, CP, and AITC, the boiling points are 119, 112, and 150°C, respectively, and vapor pressures are 1.73, 2.44, and 0.49 kPa, respectively (Downing, 2016;Jacoby 2016;Nelson et al, 2013). The high boiling point and relatively low vapor pressure of MeBr alternatives do not allow these fumigants to exist in a gas phase in their original state.…”
mentioning
confidence: 99%
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