The role of sink strength in determining tree responses to enriched atmospheric CO{sub 2}
Journal Article
·
· Bulletin of the Ecological Society of America
OSTI ID:95791
- Northern Territory Univ., Darwin (Australia)
Rising levels of atmospheric CO{sub 2} have the potential to enhance assimilation (A{sub max}) and dry matter gain in trees. This paper address the question, does long term sustained A{sub max} and dry matter gain require the maintenance of an adequate sink? Mangifera indica were grown in the ground for three years under 350 or 700 ppm CO{sub 2}, and under non-limiting nutrient conditions. A{sub max} was higher in trees grown under enriched CO{sub 2} ([CO{sub 2}]e) particularly during high growth periods. Seasonal above ground growth was enhanced by [CO{sub 2}]e. Fruit productivity was enhanced under [CO{sub 2}]e but the presences of developing fruit did not affect A{sub max}. Growth under [CO{sub 2}]e resulted in a reduction in specific leaf area (SLA), an increase in foliar starch concentration, and a diurnal decrease in A{sub max}. Removal of a large proportion of the vegetative structure promoted vigorous regrowth. Leaves developed in the vegetative regrowth under [CO{sub 2}]e enhanced A{sub max}, but there was no reduction in SLA, no change in foliar starch concentration and no diurnal depression in A{sub max}. These results suggests that vegetative growth acts seasonally as a sink. In the absence of, growth, starch is stored in the leaves reducing SLA. Slow export of foliar assimilates causes diurnal fluxes in A{sub max}. Growth inducement by pruning enhances A{sub max} by promoting sink strength.
- OSTI ID:
- 95791
- Report Number(s):
- CONF-9507129--
- Journal Information:
- Bulletin of the Ecological Society of America, Journal Name: Bulletin of the Ecological Society of America Journal Issue: 2 Vol. 76; ISSN BECLAG; ISSN 0012-9623
- Country of Publication:
- United States
- Language:
- English
Similar Records
CO sub 2 enrichment of tomatoes: Relationship of foliar stress symptoms to starch concentrations and carbon exchange rates
Assimilate utilization in the leaf canopy and whole-plant growth of soybean during acclimation to elevated CO/sub 2/
Assimilate utilization in the leaf canopy and whole-plant growth of soybean during acclimation to elevated CO/sub 2/
Conference
·
Tue May 01 00:00:00 EDT 1990
· Plant Physiology, Supplement; (USA)
·
OSTI ID:5850105
Assimilate utilization in the leaf canopy and whole-plant growth of soybean during acclimation to elevated CO/sub 2/
Journal Article
·
Wed Dec 31 23:00:00 EST 1986
· Bot. Gaz. (Chicago); (United States)
·
OSTI ID:6149725
Assimilate utilization in the leaf canopy and whole-plant growth of soybean during acclimation to elevated CO/sub 2/
Journal Article
·
Sat Feb 28 23:00:00 EST 1987
· Bot. Gaz. (Chicago); (United States)
·
OSTI ID:6351047