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| A SIMPLE CALIBRATED MODEL OF AMAZON RAIN-FOREST PRODUCTIVITY BASED ON LEAF BIOCHEMICAL-PROPERTIES |
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| Author(s): LLOYD J, GRACE J, MIRANDA AC, MEIR P, WONG SC, MIRANDA BS, WRIGHT IR, GASH JHC, MCINTYRE J |
| Source: PLANT CELL AND ENVIRONMENT Volume: 18 Issue: 10 Pages: 1129-1145 Published: OCT 1995 |
| Times Cited: 134 References: 89 |
| Abstract: A simple 'big leaf' ecosystem gas exchange model was developed, using eddy covariance data collected at an undisturbed tropical rainforest in south-western Amazonia (Brazil), The model used mechanistic equations of canopy biochemistry combined with an empirical stomatal model describing responses to light, temperature and humidity, After calibration, the model was driven using hourly data from a weather station at the top of the tower at the measurement site, yielding an estimate of gross primary productivity (annual photosynthesis) in 1992/1993 of about 200 mol C m(-2) year(-1). Although incoming photon flux density emerged as the major control on photosynthesis in this forest, at a given PAR CO2 assimilation rates were higher in the mornings than in the afternoons, This was attributable to stomatal closure in the afternoon in response to increasing canopy-to-air vapour pressure differences, Although most morning gas exchange was clearly limited by the rate of electron transport, afternoon gas exchange was generally observed to be very nearly co-limited by both Rubisco activity (V-max) and electron transport rate, The sensitivity of the model to changes in nitrogen allocation showed that the modelled ratio of V-max to electron transport (J(max)) served nearly to maximize the annual carbon gain, and indeed, would have resulted in almost maximum annual carbon gain at the pre-industrial revolution atmospheric CO2 concentration of 27 Pa, Modelled gross primary productivity (GPP) was somewhat lower at 27 Pa, being about 160 mol C m(-2) year(-1), The model suggests that, in the absence of any negative feedbacks on GPP, future higher concentrations of atmospheric CO2 win continue to increase the GPP of this rainforest, up to about 230 mol C m(-2) year(-1) at 70 Pa. |
| Document Type: Article |
| Language: English |
| Reprint Address: LLOYD, J (reprint author), AUSTRALIAN NATL UNIV, RES SCH BIOL SCI, INST ADV STUDIES, ENVIRONM BIOL GRP, GPO BOX 475, CANBERRA, ACT 2601 AUSTRALIA |
Addresses:
1. UNIV EDINBURGH, INST ECOL & RESOURCE MANAGEMENT, EDINBURGH EH9 3JU, MIDLOTHIAN SCOTLAND
2. UNIV NACL BRASILIA, ECOL LAB, BR-70910 BRASILIA, DF BRAZIL
3. INST HYDROL, WALLINGFORD OX10 8BB, OXON ENGLAND |
| Publisher: BLACKWELL SCIENCE LTD, OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL |
| Subject Category: Plant Sciences |
| IDS Number: TA940 |
| ISSN: 0140-7791 |
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| | | | | | | | | Record from Web of Science® | | | | | | | | | |