Relationship of photosynthetic rate and edaphic factors to root carbohydrate trends in honey mesquite
Issue Date
1990-03-01Keywords
total nonstructural carbohydratesphotosynthates
edaphic factors
clay loam soils
soil temperature
Prosopis glandulosa var. glandulosa
roots
photosynthesis
sandy loam soils
soil water content
growth rate
water stress
Metadata
Show full item recordCitation
Wan, C., & Sosebee, R. E. (1990). Relationship of photosynthetic rate and edaphic factors to root carbohydrate trends in honey mesquite. Journal of Range Management, 43(2), 171-176.Publisher
Society for Range ManagementJournal
Journal of Range ManagementDOI
10.2307/3899039Additional Links
https://rangelands.org/Abstract
Total nonstructural carbohydrate (TNC) concentration in honey mesquite (Prosopis glandulosa var. glandulosa) roots and its relation to current photosynthetic rate and selected soil parameters were examined on 2 upland soils. Root carbohydrate recharge rates were generally greater in trees on a sandy loam site than those on a clay loam site during the spring rainy season because of higher photosynthetic rates and more apparent root growth. Recharge rate was greater on the clay loam site during midsummer, which was related to higher soil water potential. Root carbohydrate recharge was less sensitive to a moderate water stress (dawn xylem water potential ranged from -1 to -1.6 Mpa) than was photosynthesis; but it was more sensitive to severe water stress (dawn xylem water potential ranged from -1.9 to 2.4 MPa) than was photosynthesis. Effective control of honey mesquite with foliar-applied herbicides is determined by photosynthetic rates and TNC trends as they are influenced by both soil temperature and soil water content. Higher photosynthetic rates and greater amounts of root TNC are related to higher soil temperature and higher soil water content.Type
textArticle
Language
enISSN
0022-409Xae974a485f413a2113503eed53cd6c53
10.2307/3899039