Michael J. Medler scite author profile

Quelle est la réponse aux perturbations, et la limitation de l’humidité, par des taxons similaires basés sur l’hétérogénéité des micro-site de l’habitat? Pour cette étude nous avons examiné comment la disponibilité de feu et de l’humidité influence la répartition des orchidées endémiques malgaches spécifique des affleurements de granit (inselbergs). Trois ans après le passage du feu, nous avons compare les modes de distribution et l’abondance d’orchidées dans un habitat d’une mosaïque complexe de brûlures, en tenant compte de la densité par rapport à l’intensité des dégâts d’incendie et de la disponibilité de l’humidité. Les espèces du sous- tribu Angraecinae ont été sensibles au feu, mais tolérant à une disponibilité limitée de l’humidité. orchidées Angraecinae avait un modèle uniforme de la distribution influencée par la taille du tapis de végétation. Les espèces de la sous-tribu Habenariae étaient tolérants de feu, mais limitée aux pentes rocheuses humides par des écoulements d’eau. Habenariae ont été randomizes regroupés en masses compactes, influencée par des facteurs non encore identifiés. Les résultats suggèrent l’existence de différentes stratégies de survie des espèces. Il serait inexact de penser que les orchidées voisins sur un substrat de granite aurait la même réponse à des facteurs environnementaux ou de perturbation. orchidées Angraecoid sur les inselbergs sont exposés à des menaces spécifiques et doivent être considérées comme des espèces indicatrices de la conservation est prioritaire à l’avenir.

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Improving thematic mapper based classification of wildfire induced vegetation mortality

Medler

Yool

1997

Geocarto International

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Quantifying the early snowmelt event of 2015 in the Cascade Mountains, USA by developing and validating MODIS-based snowmelt timing maps

et al. 2018

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The compounding consequences of wildfire and climate change for a high‐elevation wildflower (Saxifraga austromontana)

Bloom

Flower

Medler

et al. 2018

Journal of Biogeography

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Aim: High-elevation plants are disproportionally affected by climate change. As temperatures rise, the amount of available alpine habitat in the Rocky Mountains will decrease resulting in potential local extinctions of plant species. In addition to the direct effects of climate-driven habitat loss, alpine plants must also respond to indirect effects, such as changes in disturbance regimes. One notable shift is the increase of wildfire frequency in regions where fire was previously rare or absent, including the alpine. We hypothesized that direct climatic changes compounded with increased wildfire frequency will reduce the future suitable habitat of high-elevation plants more than if climate was considered alone.Location: Rocky Mountain Floristic Region, western North America.Taxon: Saxifraga austromontana (Saxifragaceae), a wildflower endemic to high elevations of the Rocky Mountain Floristic Region. Methods:Our approach integrated historical herbarium records, field surveys, remote sensing, species distribution models, historic wildfire data, and predictive models. Results:Our results indicate wildfire has significantly reduced the abundance and increased the likelihood of extirpation for S. austromontana. Increased fire frequency compounded with direct climatic changes will likely reduce the range of the species by approximately 43% by 2050 compared to 38% due to climate alone, under a moderate CO 2 emissions scenario. The influence of wildfire varies regionally. For instance, the Middle Rockies will likely lose 74% of its suitable habitat of which 16% may be lost due to fire, while other regions, such as the northern range, will be less negatively affected by direct and indirect effects. Main Conclusions: Our evidence that increased wildfire frequency will compound the impacts of climate change on alpine taxa in North America led to the development of a new, general hypothesis on the fundamental interaction between direct and indirect effects of climate change on species range reductions. K E Y W O R D S alpine, climate change, Rocky Mountain Floristic Region, Saxifraga austromontana, species distribution model, wildfire

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Michael J. Medler

Examining the Relationship Between Snowfall and Wildfire Patterns in the Western United States

Conservation of Madagascar’s granite outcrop orchids: the influence of fire and moisture

Improving thematic mapper based classification of wildfire induced vegetation mortality

Quantifying the early snowmelt event of 2015 in the Cascade Mountains, USA by developing and validating MODIS-based snowmelt timing maps

The compounding consequences of wildfire and climate change for a high‐elevation wildflower (Saxifraga austromontana)

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