Article: Carbon partitioning and export from mature cotton leaves

The partitioning of carbon in intact, mature cotton (Gossypium hirsutum L.) leaves was examined by steady-state (14)CO(2) labeling. Plants were exposed to dark periods of varying lengths, followed by similar illuminated labeling periods. These treatments produced leaves with a range of starch and soluble sugar contents, carbon exchange, and carbon export rates. Export during the illuminated periods was neither highly correlated with photosynthesis nor was export during the illuminated periods significantly different among the treatments. In contrast, the rate of subsequent nocturnal carbon export from these leaves varied widely and was found to be highly correlated with leaf starch content at the end of the illumination period (r = 0.934) and with nocturnal leaf respiration (r = 0.954). Leaves which had accumulated the highest levels of starch (about 275 micrograms per square centimeter) by the end of the illumination period exhibited nocturnal export rates very similar to those during the daylight hours. Leaves which accumulated starch to only 50 to 75 micrograms per square centimeter virtually ceased nocturnal carbon export. For leaves with starch accumulations of between 50 and 275 micrograms per square centimeter, nocturnal export was directly proportional to leaf starch at the end of the illumination period. After the nocturnal export rate was established, it continued at a constant rate throughout the night even though leaf starch and sucrose contents declined.

Citing Articles

The Complementary Roles of Chloroplast Cyclic Electron Transport and Mitochondrial Alternative Oxidase to Ensure Photosynthetic Performance.

Chadee A, Alber N, Dahal K, Vanlerberghe G Front Plant Sci. 2021; 12:748204.

PMID: 34650584 PMC: 8505746. DOI: 10.3389/fpls.2021.748204.

Effects of elevated CO on growth and carbon/nutrient balance in the deciduous woody shrub Lindera benzoin (L.) Blume (Lauraceae).

Cipollini M, Drake B, Whigham D Oecologia. 2017; 96(3):339-346.

PMID: 28313648 DOI: 10.1007/BF00317503.

Transgenic cotton over-producing spinach sucrose phosphate synthase showed enhanced leaf sucrose synthesis and improved fiber quality under controlled environmental conditions.

Haigler C, Singh B, Zhang D, Hwang S, Wu C, Cai W Plant Mol Biol. 2007; 63(6):815-32.

PMID: 17287885 DOI: 10.1007/s11103-006-9127-6.

Patterns of Assimilate Production and Translocation in Muskmelon (Cucumis melo L.) : I. Diurnal Patterns.

Mitchell D, Gadus M, Madore M Plant Physiol. 1992; 99(3):959-65.

PMID: 16669025 PMC: 1080570. DOI: 10.1104/pp.99.3.959.

Photosynthesis and carbon partitioning in transgenic tobacco plants deficient in leaf cytosolic pyruvate kinase .

Grodzinski , Jiao , Knowles , Plaxton Plant Physiol. 1999; 120(3):887-96.

PMID: 10398725 PMC: 59328. DOI: 10.1104/pp.120.3.887.

References

1.

Fondy B, Geiger D . Sugar Selectivity and Other Characteristics of Phloem Loading in Beta vulgaris L. Plant Physiol. 1977; 59(5):953-60. PMC: 543334. DOI: 10.1104/pp.59.5.953. View

2.

Hendrix D, Huber S . Diurnal fluctuations in cotton leaf carbon export, carbohydrate content, and sucrose synthesizing enzymes. Plant Physiol. 1986; 81(2):584-6. PMC: 1075380. DOI: 10.1104/pp.81.2.584. View

3.

Fondy B, Geiger D . Diurnal Pattern of Translocation and Carbohydrate Metabolism in Source Leaves of Beta vulgaris L. Plant Physiol. 1982; 70(3):671-6. PMC: 1065750. DOI: 10.1104/pp.70.3.671. View

4.

Ackerson R . Osmoregulation in Cotton in Response to Water Stress : II. LEAF CARBOHYDRATE STATUS IN RELATION TO OSMOTIC ADJUSTMENT. Plant Physiol. 1981; 67(3):489-93. PMC: 425711. DOI: 10.1104/pp.67.3.489. View

5.

Huber S . Role of sucrose-phosphate synthase in partitioning of carbon in leaves. Plant Physiol. 1983; 71(4):818-21. PMC: 1066128. DOI: 10.1104/pp.71.4.818. View

6.

EATON F, Joham H . SUGAR MOVEMENT TO ROOTS, MINERAL UPTAKE, AND THE GROWTH CYCLE OF THE COTTON PLANT. Plant Physiol. 1944; 19(3):507-18. PMC: 438177. DOI: 10.1104/pp.19.3.507. View

7.

Fondy B, Geiger D, Servaites J . Photosynthesis, Carbohydrate Metabolism, and Export in Beta vulgaris L. and Phaseolus vulgaris L. during Square and Sinusoidal Light Regimes. Plant Physiol. 1989; 89(2):396-402. PMC: 1055853. DOI: 10.1104/pp.89.2.396. View

8.

EATON F, ERGLE D . CARBOHYDRATE ACCUMULATION IN THE COTTON PLANT AT LOW MOISTURE LEVELS. Plant Physiol. 1948; 23(2):169-87. PMC: 437315. DOI: 10.1104/pp.23.2.169. View

9.

JORDAN W, Ritchie J . Influence of soil water stress on evaporation, root absorption, and internal water status of cotton. Plant Physiol. 1971; 48(6):783-8. PMC: 396948. DOI: 10.1104/pp.48.6.783. View

10.

Servaites J, Fondy B, Li B, Geiger D . Sources of Carbon for Export from Spinach Leaves throughout the Day. Plant Physiol. 1989; 90(3):1168-74. PMC: 1061860. DOI: 10.1104/pp.90.3.1168. View

11.

Ackerson R . Osmoregulation in Cotton in Response to Water Stress : III. Effects of Phosphorus Fertility. Plant Physiol. 1985; 77(2):309-12. PMC: 1064509. DOI: 10.1104/pp.77.2.309. View

Carbon Partitioning and Export from Mature Cotton Leaves