Abstract
Micrometeorological variables measured in the BIOSPHERE-2 Center (B2C) enclosed rain forest biome for 1 year were compared with similar measurements made in the Amazon rain forest. In the B2C rain forest, the overlying glass and supporting structure significantly reduces (by approximately a factor of two) the incoming solar radiation. Monthly mean values of above-canopy and within-canopy air temperature, vapor pressure, and vapor pressure deficit are reasonably similar to those of the Amazon rain forest, but there are marked differences in the above-canopy values of these variables in the Arizona summer. Monthly mean diurnal trends also show significant differences. Measurements of vertical air temperature gradient clearly showed two very distinct environments in the 27.4 m high rain forest dome during daylight hours. There is a comparatively cool and fairly well-mixed environment (which is reasonably similar to that found in a natural rain forest) below about 10 m and a hot, thermally stable environment above about 15 m. The nature of the atmospheric turbulence within the B2C rain forest also is significantly different from that normally found in natural rain forests. There is little turbulent mixing above the forest canopy in this enclosed environment. These findings are important for guiding the operation and use of this experimental rain forest facility in future research and for understanding how the rain forest biome functions in an enclosed environment. (C) Elsevier Science B.V.
| Original language | English |
|---|---|
| Pages (from-to) | 273-289 |
| Number of pages | 17 |
| Journal | Agricultural and Forest Meteorology |
| Volume | 100 |
| Issue number | 4 |
| DOIs | |
| Publication status | Published - 25 Feb 2000 |
| Externally published | Yes |
Funding
We are pleased to acknowledge the Columbia University BIOSPHERE-2 Center and its helpful staff (particularly the Bio-Operations and Research Groups) for their support during this study, and we congratulate Mr. Edward Bass for his vision in establishing the B2C as a unique educational and scientific facility. During this study, one of the authors (MAA) was supported by a B2C/ISPE Fellowship, jointly funded by the BIOSPHERE-2 Center and the Institute for the Study of Planet Earth (ISPE), University of Arizona. The ABRACOS field data were collected and made available by the UK Institute of Hydrology and the Instituto Nacional de Pesquisas Espaciais (Brazil). ABRACOS was a collaboration between the Agencia Brasileira de Cooperacao and the UK Overseas Development Administration. Additional support for this study was provided in the form of instrument and computer resources and travel costs by The University of Arizona and for (WJS and OLS) from NASA grants NAG5-3854 and NAG8-1531. We also acknowledge Paul Houser, Adrian Southern, and Lisa Graumlich for their individual help and advice during the study, and we appreciate the editorial assistance provided by Corrie Thies.
| Funders | Funder number |
|---|---|
| National Aeronautics and Space Administration | NAG5-3854, NAG8-1531 |
| University of Arizona |
Keywords
- ABRACOS
- Amazon River basin
- BIOSPHERE-2
- Controlled environment
- Greenhouse
- Rain forest