Field dissipation of <i>S</i>-metolachlor in organic and mineral soils used for sugarcane production in Florida

Fernandez, Jose V.; Odero, Dennis C.; MacDonald, Gregory E.; Ferrell, Jason A.; Sellers, Brent A.

doi:10.1017/wet.2019.121

Cited by 10 publications

(5 citation statements)

References 51 publications

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“…Metolachlor is semi-volatile and slightly immobile in soil. High fluxes of metolachlor could occur when wet soil condition increases the soluble concentrations and drives the flux across the boundary layer ( Gish et al, 2009 ; Fernandez et al, 2020 ). Dry soil conditions allow the metolachlor concentrations to accumulate in the soil that cannot overcome the boundary layer resistance in absence of a significant upward evaporation rate.…”

Section: Resultsmentioning

confidence: 99%

Modeling volatilization emissions of soil-applied pesticides under agricultural field conditions

Ghosh

Crist

2022

Heliyon

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Section: Resultsmentioning

confidence: 99%

Modeling volatilization emissions of soil-applied pesticides under agricultural field conditions

Ghosh

Crist

2022

Heliyon

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“…The trays were kept in a greenhouse maintained at a maximum of 30 C under natural light before being transplanted into round 2.36-L (17 cm top diameter and 16 cm height) pots filled with Dania muck (Euic, hyperthermic, shallow Lithic Haplosaprists) soil, pH 7.3, with 74% organic matter from fields used for rice production at the EREC. Soil pH and organic matter content were determined using the method described by Fernandez et al (2019).…”

Section: Methodsmentioning

confidence: 99%

Effect of depth of flooding on growth and fecundity of fall panicum (Panicum dichotomiflorum)

et al. 2023

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Fall panicum is the most prevalent and problematic weed in rice in Florida. Outdoor studies were conducted in 2021 to determine the effect of flooding on fall panicum growth and ability to produce and develop panicles. Fall panicum at the two- to four-leaf and four- to six-leaf stages of development were flooded in stock tanks maintained at flooding depths of 0, 10, 15, 20, and 30 cm for 56 days. Plant height, number of tillers and leaves, leaf area, shoot biomass, root biomass, and panicle branches for both fall panicum leaf stages of development decreased with increasing flooding depth. Fall panicum flooded at two- to four-leaf stage survived flood depth of 15 cm while plants flooded at the four- to six-leaf stage survived and emerged from flood depth of up to 20 cm. The 10 cm flood depth resulted in the tallest plants with more leaves, tillers, and leaf area for both growth stages. The probability of fall panicum survival and ability to produce panicles decreased as flood depth increased. Flood depth required for 50% survival for four- to six-leaf stage plants was estimated to occur at 14 cm while that of two- to four-leaf stage plants occurred at 12 cm. The flood depth required to reduce panicle branch production by 50% was estimated to be 15 and 20 cm for two- to four-leaf and four- to six-leaf stage plants, respectively. These results show flooding >10 cm is required to significantly reduce fall panicum survival and ability to produce panicles. Since flood level in rice is usually maintained at averagely 10 cm, chemical weed control will be important to supplement flooding for effective control of fall panicum in rice.

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“…The soil was Dania muck (Euic, hyperthermic, shallow Lithic Haplosaprists) with 7.3 pH and 74% organic matter. Soil pH and organic matter content were determined using the method described by Fernandez et al (2019). The soil was air-dried and passed through a 13-mm sieve to remove debris prior to use.…”

Section: Methodsmentioning

confidence: 99%

Influence of soil water content on growth and panicle production of fall panicum (Panicum dichotomiflorum)

et al. 2022

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Fall panicum is a problematic weed in cropping systems including rice in southern Florida. There is limited information on growth and reproductive ability of fall panicum in water-stressed environments. The objective of this study was to determine the effect of 12.5, 25, 50, 75, and 100% pot soil water content (SWC) levels on fall panicum growth and panicle branch production under greenhouse conditions. Fall panicum height, number of leaves and tillers decreased over time as SWC decreased. Fall panicum height decreased by 65 and 50% at 12.5 and 25% SWC, respectively relative to height achieved at 100% SWC. Plants at 50 to 100% SWC were able to achieve 50% tiller production within 31 to 43 days compared with 28 days at 25% SWC. The 50% tiller production was not reached at 12.5% SWC during the duration of the study. Fall panicum shoot and root biomass, total leaf area, and number of panicle branches plant-1 at 56 days after SWC treatment initiation decreased as SWC decreased. Fall panicum biomass decreased 83 to 85 and 66 to 68% at 12.5 and 25% SWC, respectively relative to 100% SWC. Leaf area declined 79 and 65% at 12.5 and 25% SWC levels, respectively compared to the 100% SWC. Fall panicum was able to produce panicles at all SWC levels although the number of panicle branches were significantly lower as SWC decreased. Plants at 12.5 and 25% SWC produced 82 and 59% less panicle branches, respectively compared with plants at 100% SWC. This study shows that SWC influences the growth and reproductive capacity of fall panicum. Although fall panicum did not reach its full growth potential at low SWC levels, it was able to survive and develop panicles showing its ability to adopt and reproduce under dry conditions.

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Field dissipation of S-metolachlor in organic and mineral soils used for sugarcane production in Florida

Cited by 10 publications

References 51 publications

Modeling volatilization emissions of soil-applied pesticides under agricultural field conditions

Modeling volatilization emissions of soil-applied pesticides under agricultural field conditions

Effect of depth of flooding on growth and fecundity of fall panicum (Panicum dichotomiflorum)

Influence of soil water content on growth and panicle production of fall panicum (Panicum dichotomiflorum)

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