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The Utah Forest Dynamics Plot: Long-Term Ecological Monitoring and Theoretical Ecology in a High-Elevation Subalpine EnvironmentFurniss, Tucker J. 01 May 2016 (has links)
The Unified Neutral Theory of Biodiversity has been advanced as a universal theory for species coexistence in forests worldwide, but few studies have examined its relevance to high-elevation, stressful environments. I established the Utah Forest Dynamics Plot (UFDP) in a heterogeneous subalpine forest at 3,091 m elevation on the Colorado Plateau to examine three underlying assumptions of neutral theory (functional equivalence, ecological equivalence, and habitat generality) and one prediction (the species abundance distribution). The UFDP comprises 27,845 stems ≥1 cm diameter at breast height of 17 species, 10 genera, and 6 families over 13.6 ha. The neutral model was a poor fit to the observed species abundance distribution, but I did not find the alternative lognormal model to provide a better fit. Using spatial pattern analyses of tree data, topography, and soil type, I found some limited support for the neutral theory assumptions of functional and ecological equivalency, with notable exceptions. Populus tremuloides, Pinus flexilis, and Pinus longaeva were characterized by non-neutral recruitment processes, and Abies bifolia and Populus tremuloides exhibited asymmetric competitive and facilitative interactions. The assumption of habitat generality was strongly contradicted, with all ten abundant species in the UFDP having habitat preference. In this subalpine temperate forest, species diversity and community structure are influenced more by habitat heterogeneity, species differences, and niche selection, with neutral processes playing a lesser role.
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Tree-Ring Chronologies from NepalBhattacharyya, Amalava, LaMarche, Valmore C., Jr., Hughes, Malcolm K. January 1992 (has links)
Ten ring-width based chronologies from Nepal are described and the prospects for further dendroclimatic work there reviewed briefly. The initial results are encouraging, and more intensive subregional sampling is called for. All the cores examined showed distinct annual rings, and there was little evidence of double or missing rings, except juniper at some sites and in some Pinus roxburghii trees. Difficulty was encountered in dating Pinus wallichiana and Cupressus dumosa. Individual site chronologies of Cedros deodora, P. roxburghii and P. wallichiana were particularly promising, and of high elevation Abies spectabilis moderately so. Densitometric data are likely to be more useful for this species. The paucity of meteorological data in Nepal represents an obstacle to further dendroclimatic work there.
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Histoire et dynamique de la forêt subalpine dans les Alpes du Sud (Briançonnais, Queyras) : approches pédoanthracologique et dendrochronologiqueSaulnier, Melanie 07 November 2012 (has links)
Le Queyras est un territoire situé à la confluence d'influences climatiques océaniques continentales et méditerranéennes. Cette spécificité a permis le développement d'une biodiversité exceptionnelle mais particulièrement vulnérable aux changements globaux. Pour mieux comprendre leur dynamique actuelle, et afin de contribuer à élaborer des scenarii prédictifs de leur évolution basés sur leur dynamique passée, une approche paléoécologique pluridisciplinaire, associant pédoanthracologie et dendrochronologie, a été menée dans des forêts matures de mélèze (Larix decidua), de pin cembro (Pinus cembra) et de sapin (Abies alba). L'analyse des charbons de bois recueillis dans les sols de ces peuplements révèlent que la composition passée a pu être bien différente de l'actuelle. Le mélèze et le pin cembro sont présents dès la recolonisation postglaciaire (respectivement 8873-9014 cal. BP et 8702 – 9024 cal. BP). Les relations cernes-climat révèlent la sensibilité du pin cembro et du sapin aux conditions hydrologiques, confirmant le caractère xérique de ce massif. D'autre part, l'étude de la dynamique holocène des forêts subalpines et des variations de leur limite supérieure révèlent que les changements globaux semblent favoriser le mélèze. Alors que les résultats pédoanthracologiques montrent que le pin cembro et le mélèze se sont succédé à l'étage subalpin tout au long de l'Holocène, la dendrochronologie met en évidence les conséquences des changements globaux : le pin cembro devient de plus en plus sensible au réchauffement climatique tandis que le mélèze semble profiter des changements d'occupation du sol associés à une augmentation des températures. / The Queyras is a region located at the limit of oceanic, continental and Mediterranean climatic influences. This specificity led to a level of biodiversity exceptional but particularly sensitive to global changes. We used a pluridisciplinary paleocological approach by means of pedoanthracology and dendrochronology applied in old growth forests of Larch (Larix decidua), Stone pine (Pinus cembra) and Fir (Abies alba) to assess the present forest dynamics and to contribute to forecast the probable future forest dynamics. Wood charcoal analyses issued from natural soils sampled in these forests reveal past periods with vegetation composition sometimes quite different from the present one . Larch and Stone pine installed in the early Holocene (respectively 8873-9014 cal. BP and 8702 – 9024 cal. BP). Climate-growth relationship evidence the high sensitivity of both stone pine and fir to hydrological conditions which attests the dry conditions of this massif. In addition to that, the study of the upper limit dynamics of subalpine forests during the Holocene reveals that global changes seem to favour Larch. Whereas pedoanthracology results show permanent succession of Larch and Stone pine at the subalpine vegetation stage over the Holocene period, dendrochronology emphasizes the consequences of global changes: Stone pine gets more and more sensitive to climate warming while Larch seems to benefit of land use changes associated with temperature increase.
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