Leaf Vein Morphological Variation in Four Endangered Neotropical Magnolia Species along an Elevation Gradient in the Mexican Tropical Montane Cloud Forests

Climatic variations influence the adaptive capacity of trees within tropical montane cloud forests species. Phenology studies have dominated current studies on tree species. Leaf vein morphology has been related to specific climatic oscillations and varies within species along altitudinal gradients. We tested that certain Neotropical broad leaf Magnolia species might be more vulnerable to leaf vein adaptation to moisture than others, as they would be more resilient to the hydric deficit. We assessed that leaf vein trait variations (vein density, primary vein size, vein length, and leaf base angle) among four Magnolia species (Magnolia nuevoleonensis, M. alejandrae, M. rzedowskiana, and Magnolia vovidesii) through the Mexican Tropical montane cloud forest with different elevation gradient and specific climatic factors. The temperature, precipitation, and potential evaporation differed significantly among Magnolia species. We detected that M. rzedowskiana and M. vovidesii with longer leaves at higher altitude sites are adapted to higher humidity conditions, and that M. nuevoleonensis and M. alejandrae inhabiting lower altitude sites are better adjusted to the hydric deficit. Our results advance efforts to identify the Magnolia species most vulnerable to climate change effects, which must focus priorities for conservation of this ecosystem, particularly in the Mexican tropical montane cloud forests.

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Biogeography of Tropical Montane Cloud Forests. Part II: Mapping of Orographic Cloud Immersion

Journal of Applied Meteorology and Climatology ◽

10.1175/2007jamc1819.1 ◽

2008 ◽

Vol 47 (8) ◽

pp. 2183-2197 ◽

Cited By ~ 22

Author(s):

Udaysankar S. Nair ◽

Salvi Asefi ◽

Ronald M. Welch ◽

D. K. Ray ◽

Robert O. Lawton ◽

...

Keyword(s):

Costa Rica ◽

Cloud Forest ◽

United Nations Environment Programme ◽

Cloud Base ◽

Trade Wind ◽

Cloud Forests ◽

Study Region ◽

Modis Data ◽

Monitoring Centre ◽

Tropical Montane Cloud Forests

Abstract This study details two unique methods to quantify cloud-immersion statistics for tropical montane cloud forests (TMCFs). The first technique uses a new algorithm for determining cloud-base height using Moderate Resolution Imaging Spectroradiometer (MODIS) cloud products, and the second method uses numerical atmospheric simulation along with geostationary satellite data. Cloud-immersion statistics are determined using MODIS data for March 2003 over the study region consisting of Costa Rica, southern Nicaragua, and northern Panama. Comparison with known locations of cloud forests in northern Costa Rica shows that the MODIS-derived cloud-immersion maps successfully identify known cloud-forest locations in the United Nations Environment Programme (UNEP) World Conservation Monitoring Centre (WCMC) database. Large connected regions of cloud immersion are observed in regions in which the trade wind flow is directly impinging upon the mountain slopes; in areas in which the flow is parallel to the slopes, a fractured spatial distribution of TMCFs is observed. Comparisons of the MODIS-derived cloud-immersion map with the model output show that the MODIS product successfully captures the important cloud-immersion patterns in the Monteverde region of Costa Rica. The areal extent of cloud immersion is at a maximum during morning hours and at a minimum during the afternoon, before increasing again in the evening. Cloud-immersion frequencies generally increase with increasing elevation and tend to be higher on the Caribbean Sea side of the mountains. This study shows that the MODIS data may be used successfully to map the biogeography of cloud forests and to quantify cloud immersion over cloud-forest locations.

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Diversity and Distribution of Avifauna at the Tropical Montane Cloud Forests of Horton Plains National Park

Journal of Tropical Forestry and Environment ◽

10.31357/jtfe.v8i1.3481 ◽

2018 ◽

Vol 8 (1) ◽

Author(s):

P.H.S.P Chandrasiri ◽

W.D.S.C. Dharmarathne ◽

W.A.D Mahaulpatha

Keyword(s):

National Park ◽

Cloud Forest ◽

Similarity Index ◽

Wiener Index ◽

Common Species ◽

Bird Diversity ◽

Cloud Forests ◽

Forest Habitat ◽

Endemic Birds ◽

Tropical Montane Cloud Forests

Diversity and distribution of avifauna was studied at the tropical montane cloud forests of Horton Plains National Park, situated in the highland plateau of the Nuwara Eliya district from September 2015 to May 2016. Three main habitats were identified; cloud forest habitat, cloud forest die-back habitat and grassland habitat. Nine, 300 m line transects were marked in each of the habitats. Avifauna was recorded on three consecutive days of each month while travelling along these transects. Seventy eight species of birds were recorded during the study period. This included 66 resident species (with 13 endemic species) and 12 migratory species. The maximum value of the Shannon Wiener Index H' of 2.56 was recorded from the cloud forest habitat. In the cloud forest die-back habitat the H' was 2.49 and in the grassland habitat the H' was 2.31.The Jaccard similarity index, between cloud forest and cloud forest die-back was 0.58, and these two habitats had more common species. Cloud forest is the major habitat to be protected, with other habitats, in HPNP. Hence management of the HPNP should plan more actions to improve long term monitoring plans to warrant the protection of threatened species.Keywords: bird diversity and distribution, endemic birds, Horton Plains, tropical montane cloud forest

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Alerta en el bosque mesófilo de montaña veracruzano

UVserva ◽

10.25009/uvserva.v0i6.2587 ◽

2018 ◽

Author(s):

Marco A. Espinoza Guzmán ◽

Sabel Prieto Balan ◽

Carlos R. Cerdán Cabrera ◽

Margarito Paéz Rodriguez ◽

Gerardo Ortiz Ceballos

Keyword(s):

Land Use ◽

Land Use Change ◽

Satellite Images ◽

Cloud Forest ◽

Economic Importance ◽

Cloud Forests ◽

Watershed Land Use ◽

Bosque Mesófilo De Montaña ◽

Tropical Montane Cloud Forests ◽

Coffee Cultivation

El desarrollo de actividades humanas dentro del Bosque Mesófilo de Montaña causa serias amenazas de importancia ambiental y económica que tiene este ecosistema en Veracruz. Esta nota presenta una estimación del área de bosque que se ha perdido a lo largo de 17 años, trabajo que se ha realizado con ayuda de imágenes satelitales de 1999, 2010 y 2016. La principal causa de pérdida de bosque es el cambio de uso de suelo hacia áreas de infraestructura.Palabras clave: Bosque mesófilo; cambio de uso de suelo; cafeticultura; cuenca La Antigua; imágenes satelitales AbstractHuman activities in tropical montane cloud forests cause serious threats to its environmental and economic importance in Veracruz. This note reports an estimate of how much cloud forest area has been lost over 17 years, research that has been done with the help of satellite images from 1999, 2010, and 2016. The main cause of cloud forest loss is land use change to infrastructure areas.Keywords: coffee cultivation, La Antigua watershed, land-use change, satellite images, tropical montane cloud forests

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New records of Ascomycetes from the Tropical Montane Cloud Forests of eastern Mexico

Phytotaxa ◽

10.11646/phytotaxa.454.3.1 ◽

2020 ◽

Vol 454 (3) ◽

pp. 161-185

Author(s):

TANIA RAYMUNDO ◽

RICARDO VALENZUELA ◽

JULIO CESAR RAMÍREZ-MARTÍNEZ ◽

MICHELLE MARTÍNEZ-PINEDA ◽

AURORA COBOS VILLAGRÁN ◽

...

Keyword(s):

New Records ◽

Vegetation Type ◽

Cloud Forest ◽

Tropical Montane Cloud Forest ◽

Ecological Studies ◽

Cloud Forests ◽

Montane Cloud Forest ◽

Tropical Montane Cloud Forests

The tropical montane cloud forest is an important reservoir of the diversity of Mexican ascomycetes. We cite and describe 17 species that had not been recorded in this vegetation type. Fifteen of them are new records for Mexico. Some of these species are associated with angiosperms and some with other fungi. Ongoing efforts are required to carry out floristic, taxonomic, phylogenetic and ecological studies of this group of fungi in such a diverse ecosystem that is cataloged as threatened.

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Climate change and deforestation drive the displacement and contraction of tropical montane cloud forests

10.21203/rs.3.rs-1036888/v1 ◽

2021 ◽

Author(s):

Santiago Ramírez-Barahona ◽

Ángela P. Cuervo-Robayo ◽

Kenneth Feeley ◽

Andrés Ortiz-Rodríguez ◽

Antonio Vásquez-Aguilar ◽

...

Keyword(s):

Climate Change ◽

Global Climate ◽

Cloud Forest ◽

Vascular Plant ◽

Cloud Forests ◽

Tropical Montane Forests ◽

Population Sizes ◽

And Migration ◽

Tropical Montane Cloud Forests ◽

Impacts Of Climate Change

Abstract Global climate change and habitat loss are displacing tropical montane forests along mountain slopes1–4. Cloud forests are one of the most diverse and fragile of these montane ecosystems5–8, yet little is known about the historical and ongoing impacts of anthropogenic disturbances on these forests. Here we assess historical (1901–2016) changes in the altitudinal range of vascular plant species in Mesoamerican cloud forests and evaluate the relative impacts of climate change and land-use alterations. By analysing thousands of occurrence records from public biological collections, we uncovered common altitudinal shifts across species and suggest an overall contraction of cloud forests starting in the late 1970s. We infered a pervasive and interrelated impact of rising temperatures, changing precipitation patterns, and deforestation on the distribution of cloud forest species across Mesoamerica. Over the last fifty years, cloud forests have declined due to deforestation and warmer and more (seasonally) arid climates9–11. This is pushing species’ to contract their altitudinal ranges and may lead to an increasing probability of abrupt and devastating declines of population sizes, local adaptation, and migration.

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Altitudinal, latitudinal and longitudinal responses of cloud forest species to Quaternary glaciations in the northern Neotropics

Biological Journal of the Linnean Society ◽

10.1093/biolinnean/blaa070 ◽

2020 ◽

Vol 130 (3) ◽

pp. 615-625

Author(s):

Lázaro Guevara

Keyword(s):

Cloud Forest ◽

Population Connectivity ◽

Forest Species ◽

Cloud Forests ◽

Niche Modelling ◽

Obvious Effect ◽

Postglacial Colonization ◽

Downward Displacement ◽

Mountain Systems ◽

Tropical Montane Cloud Forests

Abstract The glaciations of the Quaternary caused changes in the geographical distributions of species associated with tropical montane cloud forests. The most obvious effect of the glacial conditions was the downward displacement of cloud forest species, thus giving opportunities for population connectivity in the lowlands. Considerable attention has been paid to these altitudinal changes, but latitudinal and longitudinal movements remain poorly understood in the northern Neotropics. Here, I use ecological niche modelling to generate palaeodistributions of small-eared shrews (Mammalia: Soricidae) closely associated with cloud forests in the mountain systems of Mexico and then retrodict their range shifts during the Last Glacial Maximum (LGM), one of the coldest periods of the Quaternary. The results suggest that cloud forest species not only migrated downwards in response to global cooling and dryness but also migrated latitudinally and longitudinally onto those slopes that maintained moist conditions (other slopes remained unsuitable during the LGM), thus revealing a hitherto unknown route for postglacial colonization of cloud forest species. This scenario of past distributional change probably had genetic and demographic implications and has repercussions for the identification of areas of refugia and postglacial colonization routes of cloud forest species.

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Ascomycetes from the relic forest of Oreomunnea mexicana, Oaxaca, Mexico

Phytotaxa ◽

10.11646/phytotaxa.528.1.3 ◽

2021 ◽

Vol 528 (1) ◽

pp. 19-44

Author(s):

RICARDO VALENZUELA ◽

TANIA RAYMUNDO ◽

PAMELA REYES ◽

JORGE GUZMÁN-GUILLERMO ◽

SALVADOR ACOSTA ◽

...

Keyword(s):

New Records ◽

Growth Habit ◽

Cloud Forest ◽

Taxonomic Diversity ◽

Abundant Species ◽

Tropical Montane Cloud Forest ◽

Cloud Forests ◽

Montane Cloud Forest ◽

Tropical Montane Cloud Forests ◽

Main Growth

La Esperanza is an Oaxacan relic area of the Tertiary, dominated by the big tree Oreomunnea mexicana (Juglandaceae). The forest is part of the priority region for the conservation of La Chinantla and constitutes one of the most conserved Mexican tropical montane cloud forests. We studied the Ascomycetes fungi and found 63 species, of which 32 are new records for Oaxaca. Ascocoryne inflata, Calyculosphaeria macrospora, Cercophora costaricensis, Chaetosphaeria ellisii, Coccomyces limitatus, Lasiosphaeria ovina, Leptogidium dendriscum, Marthamyces quadrifidus, Stereocaulon didymicum and Thelonectria lucida are new records for Mexico. Xylaria was the most diverse genus with 12 species. The most abundant species were Xylaria arbuscula and Lachnum apalum. The main growth habit was lignicolous. The tropical montane cloud forest of La Esperanza has unique characteristics allowing great taxonomic diversity of Ascomycetes.

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