Publikationen
Es wurden 4 Publikationen gefunden
Rollenbeck, R.; Trachte, K. & Bendix, J. (2016): A New Class of Quality Controls for Micrometeorological Data in Complex Tropical Environments. Journal of Atmospheric and Oceanic Technology 33(1), 169-183.
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DOI: 10.1175/JTECH-D-15-0062.1
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Abstract:
Abstract:
Quality control is a particularly demanding problem for micrometeorological studies in complex environments. With the transition to electronic sensing and storage of climate data in high temporal resolution,
traditional approaches of homogenization are insufficient for addressing the small-scale variability and spatial
heterogeneity of the data. This problem can be successfully addressed by introducing a new class of control
procedures based on the physical and climatological relations between different climate variables. The new
approach utilizes knowledge about the interdependency of air temperature, precipitation, radiation, relative
air humidity, cloud cover, and visibility to develop empirical functions for determining the probability
margins for the co-occurrence of specific conditions in tropical mountains and deserts. It can also be applied to
other geographic settings by adjusting the parameters derived from the data itself. All procedures are integrated into a processing chain with feedback loops and combined with conventional logical and statistical
checks, which enables it to detect small errors that normally pass unnoticed. The algorithms are also adapted
to incorporate the short time steps of the original data to retain the potential for detailed process analyses.
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Keywords: |
climate |
microclimate |
Climate variability |
data quality |
Adams, M. & Fiedler, K. (2015): The value of targeted reforestations for local insect diversity: a case study from the Ecuadorian Andes.. Biodiversity and Conservation 24, 2709-2734.
Werner, F.A. (2011): Reduced growth and survival of vascular epiphytes on isolated remnant trees in a recent tropical montane forest clear-cut. Basic and Applied Ecology 12, 172-181.
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DOI: 10.1016/j.baae.2010.11.002
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Abstract:
Abstract:
Forest fragmentation can negatively affect tropical epiphyte diversity, but the processes leading to such impoverishment are insufficiently understood. Due to a lack of experimental studies, the relative influence of dispersal constraints vs. growth conditions remains particularly controversial. This paper addresses the fate of late juvenile and adult vascular epiphytes in response to severe forest disturbance in montane southern Ecuador. Plant growth and survival on trunks and lower branches of isolated remnant trees was studied for the first three years following clear-cutting. Overall epiphyte mortality was substantially increased on remnant trees (72% over 3 years) relative to undisturbed forest (11%). Mortality on remnant trees was higher during the first year (52%) than during the second (20%) and third year (26%). Pteridophytes and dicots suffered higher losses than monocots. Plants surviving on remnant trees generally showed a marked negative growth regarding maximum leaf length, whereas the annual increment in leaf number varied more strongly among taxa (families). The present study provides the first field-experimental evidence for the adverse effects of forest disturbance on the performance of later, well-established life stages of vascular epiphytes. The results suggest that growth conditions may often be a more important predictor of epiphyte diversity in disturbed habitats than dispersal constraints. Similar plant responses can be expected to occur along forest edges. Therefore, the retention of scattered green trees, narrow strips or small fragments of forest are unlikely to be sufficient management tools for the conservation of epiphyte diversity in tropical landscapes.
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Keywords: |
growth |
land-use change |
human disturbance |
diversity |
microclimate |
edge effects |
forest fragmentation |
population dynamics |
scattered trees |
Werner, F.A. & Larrea, M.L. (2010): Response of vascular epiphyte diversity to different land-use intensities in a neotropical montane wet forest. Forest Ecology and Management 260, 1950-1955.
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DOI: 10.1016/j.foreco.2010.08.029
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Abstract:
Abstract:
Although vascular epiphytes contribute substantially to the biodiversity of tropical montane forests, it is
unclear how their diversity and community composition is affected by forest alteration. We studied the
response of vascular epiphyte assemblages to different intensities of land-use in a montane wet forest of
northeastern Ecuador: (1) unmanaged mature forest; (2) mature forest with mid- and understorey opened
for cattle grazing; and (3) isolated remnant trees in cattle pastures. The numbers of individuals and species
of epiphytes per host tree did not differ significantly between land-use types, neither did total epiphyte
species richness (n = 30 trees). However, total species richness of pteridophytes was significantly lower on
isolated remnant trees compared to unmanaged forest, whereas several taxa rich in xerotolerant species
(Bromeliaceae, Orchidaceae, Piperaceae) exhibited the opposite trend. An analysis of floristic composition
using ordination (NMS) and randomisation techniques (MRPP) showed that epiphyte assemblages on
isolated remnant trees were significantly distinct from unmanaged forest while managed forest was
intermediate between those two vegetation types. Ordination analysis further indicated reduced floristic
heterogeneity in disturbed habitats. These results suggest considerable, rapid species turnover since
land-use change 6 years prior to study, with pteridophytes being replaced by more xerotolerant taxa.
We attribute this floristic turnover primarily to changes in microclimate towards higher levels of light
and desiccation stress associated with forest disturbance. Our results support the notion that community
composition offers a more sensitive indicator of human disturbance than species richness.
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Keywords: |
land-use change |
human disturbance |
microclimate |
deforestation |
beta diversity |
fragmentation |
isolated trees |
secondary forest |
species richness |
species turnover |