Moisture Stress Effects on the Absorption, Translocation, and Metabolism of Haloxyfop in Johnsongrass (Sorghum halepense) and Large Crabgrass (Digitaria sanguinalis)

Moisture Stress Effects on the Absorption, Translocation, and Metabolism of Haloxyfop in Johnsongrass (Sorghum halepense) and Large Crabgrass (Digitaria sanguinalis)

Glasshouse studies were undertaken to determine the effect of imposed moisture stress on the phytotoxicity of haloxyfop; the absorption, translocation, and metabolism of 14C-haloxyfop; and 14C-photoassimilate partitioning in johnsongrass and large crabgrass. Following foliar applications of haloxyfo...

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Bibliographic Details
Published in:Weed science Vol. 38; no. 4/5; pp. 331 - 337
Main Authors: Peregoy, Robert S., Kitchen, Lynn M., Jordan, Peter W., Griffin, James L.
Format: Journal Article
Language:English
Published: Cambridge, UK Cambridge University Press 01-07-1990
Weed Science Society of America
Subjects:
ABSORCION
ABSORPTION
Agronomy. Soil science and plant productions
Biological and medical sciences
CARBOHIDRATOS
Chemical control
Crop harvesting
Dehydration
DIGITARIA
Esters
ESTRES DE SEQUIA
FACTEUR DU MILIEU
FACTORES AMBIENTALES
FISIOLOGIA VEGETAL
FITOTOXICIDAD
FOTOSINTESIS
Fundamental and applied biological sciences. Psychology
GLUCIDE
HERBICIDAS
HERBICIDE
Herbicides
Metabolism
METABOLISME
METABOLISMO
Metabolites
Parasitic plants. Weeds
PHOTOSYNTHESE
PHYSIOLOGIE VEGETALE
Physiology, Chemistry, and Biochemistry
Phytopathology. Animal pests. Plant and forest protection
PHYTOTOXICITE
Plants
Radiocarbon
Sorghum
SORGHUM HALEPENSE
STRESS DU A LA SECHERESSE
Water treatment
Weeds
large crabgrass, Digitaria sanguinalis (L.) Scop. # DIGSA
DIGSA
soil moisture
Haloxy-fop, {2-[4-[(3-chloro-5- (trifluoromethyl)- 2-pyridinyl]-oxy]phenoxy]propanoic acid}
SORHA
Herbicide absorption and translocation
metabolism
johnsongrass, Sorghum halepense (L.) Pers. # SORHA
environmental effects
Assimilation
Monocotyledones
Digitaria sanguinalis
Phytotoxicity
Weed
Gramineae
Angiospermae
Sorghum halepense
Spermatophyta
Water stress
Chemical weed control
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Summary:Glasshouse studies were undertaken to determine the effect of imposed moisture stress on the phytotoxicity of haloxyfop; the absorption, translocation, and metabolism of 14C-haloxyfop; and 14C-photoassimilate partitioning in johnsongrass and large crabgrass. Following foliar applications of haloxyfop at 30 and 25 g ai ha–1 to large crabgrass and johnsongrass, respectively, control 15 days after treatment was 92% for nonstressed plants and less than 12% for water-stressed plants. Foliar absorption of 14C-haloxyfop was reduced by moisture stress 1, 3, 5, and 24 h after treatment (HAT) in large crabgrass and 1, 3, 5, 48, and 72 HAT in johnsongrass. Regardless of stress treatment, absorption in both species reached a maximum by 24 HAT. Translocation of the radiolabel from the treated leaf to plant parts above and below the node of the treated leaf was inhibited by moisture stress in large crabgrass and johnsongrass at all harvest intervals beginning 5 and 24 HAT, respectively. Metabolism of 14C-haloxyfop was not altered by moisture stress. Fixation of 14CO2 and subsequent distribution of the 14C-photoassimilates were reduced by moisture stress. Decreases in photoassimilate translocation were similar to reductions in 14C-haloxyfop translocation. Moisture stress reduced the phytotoxicity of haloxyfop in the two grasses, and the reduced activity of haloxyfop appeared to be partially related to changes in herbicide absorption and translocation.
Bibliography:9103194
H60
ISSN:0043-1745
1550-2759
DOI:10.1017/S0043174500056630