+ Site Statistics
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Sulfur di oxide metabolism in soybean glycine max cultivar biloxi part 1 the effects of light and dark on the uptake and translocation of sulfur 35 di oxide



Sulfur di oxide metabolism in soybean glycine max cultivar biloxi part 1 the effects of light and dark on the uptake and translocation of sulfur 35 di oxide



New Phytologist 78(1): 111-119



First-trifoliate leaves of 4-leaved soybean plants were exposed to 35SO2 in the light or dark, and the uptake and translocation of radioactivity measured. Nearly 4 times more 35SO2 was taken up in the light (stomata open) than in the dark (stomata closed) but approximately 50% of the radioactivity was leached from the leaf surface in the dark compared with 5% in the light. A greater proportion of the source-leaf radioactivity was translocated in the dark but, in absolute terms, the quantity of radioactivity moved was less. Radioactive products were found in all parts of the plant after exposure in both light and dark. The expanding trifoliate leaf contained the greatest concentration of translocated radioactivity in both cases. Light and dark pre- and post-treatments had little effect on uptake of 35SO2 or translocation of the products. 35SO42- was detected in the nutrient solution within 1 h of exposure of leaves to 35SO2.

Please choose payment method:






(PDF emailed within 1 workday: $29.90)

Accession: 006541179

Download citation: RISBibTeXText


Related references

Sulfur di oxide metabolism in soybean glycine max cv biloxi part 2 biochemical distribution of sulfur 35 sulfur di oxide products. New Phytologist 79(3): 583-592, 1977

The effects of sulfur di oxide and nitrogen oxide alone in combination on the yield of soybean glycine max cultivar hark. Plant Physiology 65(6 Suppl.): 152, 1980

Effects of ozone and sulfur di oxide on injury and foliar concentrations of sulfur and chlorophyll in soybean glycine max. Environmental Pollution Series A Ecological & Biological 32(2): 91-100, 1983

Effects of repeated exposures of sulfur di oxide and nitrogen di oxide on soybeans glycine max cultivar brogg. Phytopathology 72(3): 358, 1982

Sulfur sulfur 35 metabolism in rats exposed to sulfur 35 di oxide contained in the air with simultaneous use of the method of sulfur 35 di oxide binding by ammonia. International Archives of Occupational and Environmental Health 35(1): 67-80, 1975

Interaction between sulfur di oxide and nitrogen di oxide and their effects on photosynthetic properties of soybean glycine max. Environmental Pollution Series A Ecological & Biological 32(1): 11-38, 1983

Ozone and sulfur di oxide induced changes in soybean glycine max cultivar dare growth. Phytopathology 70(9): 914-916, 1980

Effects of sulfur di oxide on expansion of lesions caused by corynebacterium nebraskense in maize zea mays and by xanthomonas phaseoli var sojensis in soybean glycine max cultivar hodgson. Phytopathology 71(4): 445-448, 1981

The uptake and metabolism of sulfur 35 di oxide in plants of differing sensitivity to sulfur di oxide. Environmental Pollution 13(3): 173-186, 1977

Effect of sulfur di oxide on carbon di oxide exchange in sulfur di oxide tolerant and sulfur di oxide susceptible scotch pine pinus sylvestris seedlings. Photosynthetica 16(1): 140-144, 1982

Low level ozone and or sulfur di oxide exposure causes a linear decline in soybean glycine max cultivar hark yield. Environmental Pollution Series A Ecological & Biological 34(4): 345-356, 1984

Foliar fatty acids and sterols of soybean glycine max cultivar wells field fumigated with sulfur di oxide. Plant Physiology 68(4): 868-871, 1981

The use of open top chambers to study the effects of air pollutants in particular sulfur di oxide on the growth of rye grass lolium perenne cultivar s 23 2. the long term effect of filtering polluted urban air or adding sulfur di oxide to rural air. Environmental Pollution Series A Ecological and Biological 31(1): 35-56, 1983

Experimental studies on sulfur di oxide injuries in higher plants part 2 disturbance of amino acid metabolism in plants exposed to sulfur di oxide. Water Air and Soil Pollution 1(4): 343-346, 1972

Yield reduction of soybean glycine max due to exposure to sulfur di oxide and nitrogen di oxide in combination. Journal of Environmental Quality 12(4): 454-459, 1983