Book contents
- Frontmatter
- Contents
- List of contributors
- Foreword
- Preface
- Acknowledgements
- Part I General perspectives
- Part II Regional floristic and animal diversity
- Part III Hydrometeorology of tropical montane cloud forest
- 20 Hydrometeorological patterns in relation to montane forest types along an elevational gradient in the Yungas of Bolivia
- 21 Structure and dynamics of tropical montane cloud forests under contrasting biophysical conditions in north-western Costa Rica
- 22 Quantitative measures of immersion in cloud and the biogeography of cloud forests
- 23 Understanding the role of fog in forest hydrology: stable isotopes as tools for determining input and partitioning of cloud water in montane forests
- 24 Using stable isotopes to identify orographic precipitation events at Monteverde, Costa Rica
- 25 Using “biosensors” to elucidate rates and mechanisms of cloud water interception by epiphytes, leaves, and branches in a sheltered Colombian cloud forest
- 26 Water dynamics of epiphytic vegetation in a lower montane cloud forest: fog interception, storage, and evaporation
- 27 Epiphyte biomass in Costa Rican old-growth and secondary montane rain forests and its hydrological significance
- 28 Comparison of passive fog gages for determining fog duration and fog interception by a Puerto Rican elfin cloud forest
- 29 Fog interception in a Puerto Rican elfin cloud forest: a wet-canopy water budget approach
- 30 Fog gage performance under conditions of fog and wind-driven rain
- 31 The wet-canopy water balance of a Costa Rican cloud forest during the dry season
- 32 Measured and modeled rainfall interception in a lower montane forest, Ecuador
- 33 Measuring cloud water interception in the Tambito forests of southern Colombia
- 34 Relationships between rainfall, fog, and throughfall at a hill evergreen forest site in northern Thailand
- 35 History of fog and cloud water interception research in Hawai'i
- 36 Interpreting canopy water balance and fog screen observations: separating cloud water from wind-blown rainfall at two contrasting forest sites in Hawai'i
- 37 Historical background of fog water collection studies in the Canary Islands
- 38 Effects of fog on climatic conditions at a sub-tropical montane cloud forest site in northern Tenerife (Canary Islands, Spain)
- Part IV Nutrient dynamics in tropical montane cloud forests
- Part V Cloud forest water use, photosynthesis, and effects of forest conversion
- Part VI Effects of climate variability and climate change
- Part VII Cloud forest conservation, restoration, and management issues
- References
20 - Hydrometeorological patterns in relation to montane forest types along an elevational gradient in the Yungas of Bolivia
from Part III - Hydrometeorology of tropical montane cloud forest
Published online by Cambridge University Press: 03 May 2011
- Frontmatter
- Contents
- List of contributors
- Foreword
- Preface
- Acknowledgements
- Part I General perspectives
- Part II Regional floristic and animal diversity
- Part III Hydrometeorology of tropical montane cloud forest
- 20 Hydrometeorological patterns in relation to montane forest types along an elevational gradient in the Yungas of Bolivia
- 21 Structure and dynamics of tropical montane cloud forests under contrasting biophysical conditions in north-western Costa Rica
- 22 Quantitative measures of immersion in cloud and the biogeography of cloud forests
- 23 Understanding the role of fog in forest hydrology: stable isotopes as tools for determining input and partitioning of cloud water in montane forests
- 24 Using stable isotopes to identify orographic precipitation events at Monteverde, Costa Rica
- 25 Using “biosensors” to elucidate rates and mechanisms of cloud water interception by epiphytes, leaves, and branches in a sheltered Colombian cloud forest
- 26 Water dynamics of epiphytic vegetation in a lower montane cloud forest: fog interception, storage, and evaporation
- 27 Epiphyte biomass in Costa Rican old-growth and secondary montane rain forests and its hydrological significance
- 28 Comparison of passive fog gages for determining fog duration and fog interception by a Puerto Rican elfin cloud forest
- 29 Fog interception in a Puerto Rican elfin cloud forest: a wet-canopy water budget approach
- 30 Fog gage performance under conditions of fog and wind-driven rain
- 31 The wet-canopy water balance of a Costa Rican cloud forest during the dry season
- 32 Measured and modeled rainfall interception in a lower montane forest, Ecuador
- 33 Measuring cloud water interception in the Tambito forests of southern Colombia
- 34 Relationships between rainfall, fog, and throughfall at a hill evergreen forest site in northern Thailand
- 35 History of fog and cloud water interception research in Hawai'i
- 36 Interpreting canopy water balance and fog screen observations: separating cloud water from wind-blown rainfall at two contrasting forest sites in Hawai'i
- 37 Historical background of fog water collection studies in the Canary Islands
- 38 Effects of fog on climatic conditions at a sub-tropical montane cloud forest site in northern Tenerife (Canary Islands, Spain)
- Part IV Nutrient dynamics in tropical montane cloud forests
- Part V Cloud forest water use, photosynthesis, and effects of forest conversion
- Part VI Effects of climate variability and climate change
- Part VII Cloud forest conservation, restoration, and management issues
- References
Summary
ABSTRACT
Floristic composition, structure, and functioning of tropical montane forests depend on various abiotic and biotic factors, although the precise nature of the interactions is still a matter of debate. As part of an interdisciplinary project aiming to understand the relationship between vegetation and abiotic factors in the montane forest belt in the Yungas of Bolivia (Eastern Andes), hydrometerological observations were made along an elevational gradient. Earlier studies had revealed a decrease in biodiversity and forest stature with altitude. Three weather stations were in operation: at 1850 m.a.s.l. (lower montane forest, LMF), 2600 m.a.s.l. (upper montane cloud forest, UMCF), and 3050 m.a.s.l. (sub-alpine cloud forest, SACF) between October 2001 and October 2002. Precipitation increased strongly with elevation from 2310 mm year−1 at 1850 m.a.s.l. to 5150 mm year−1 at 3050 m.a.s.l. Compared to clear-sky conditions, reductions in short-wave radiation inputs by fog and clouds were estimated at 37% at 1850 m.a.s.l. vs. 58– 62% at 2600 and 3050 m.a.s.l. However, intensities of photosynthetically active radiation (PAR) remained well above the light saturation point for local vegetation, and changes in PAR with elevation are therefore unlikely to control vegetation zonation. FAO reference evaporation rates decreased from 3.3 mm day−1 in the LMF zone to 1.4 and 1.3 mm day−1 in the UMCF and SACF zones, respectively. The present results suggest that the difference in forest stature between the LMF on the one hand, and the UMCF and SACF on the other, is dominated by a strong increase in precipitation excess, leading in turn to persistently saturated conditions, high acidity and leaching in the SACF.
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- Tropical Montane Cloud ForestsScience for Conservation and Management, pp. 199 - 207Publisher: Cambridge University PressPrint publication year: 2011