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45,991 results on '"Mountains"'

57. Le strade per superare, visitare e proteggere le pareti rocciose. Questioni ambientali dello sviluppo infrastrutturale nelle Alpi francesi (secoli XIX-XXI)

Author

Emma-Sophie MOURET

Subjects
infrastructural development, mountains, rock faces, tourism, vercors pre-alp, History (General), D1-2009, Modern history, 1453-, D204-475
Abstract

This article aims to examine the relationship between mountain communities in the French Alps and rock faces through the perspective of environmental history. A long-term approach allows us to observe the ways in which this relationship was expressed and transformed. In the 19th century, confidence in technology stimulated the construction of mountain roads, some of which were built along rock faces, at the time perceived as a physical obstacle difficult to overcome. Following their opening, many mountain roads attracted tourists in search of picturesque scenery. Since the 1960s, increasing attention to environmental damage has generated an ambivalent approach to rock faces: on the one hand, it has led to proposals to protect them; on the other, such proposals have been hampered by the need to make the roads safe and wide. Legislative constraints, safety measures and ecosystems to be protected have resulted in a complex planning of rock faces that has expressed and still expresses the complexity of the relationships that societies have with mountain environments.

Published
2024

62. CLIMB EVERY MOUNTAIN.

Subjects
*TOUR de France (Bicycle race), *BICYCLE racing, *MOUNTAINS, *CYCLISTS
Published
2024

64. The role of mountains in shaping the global meridional overturning circulation.

Author

Yang, Haijun, Jiang, Rui, Wen, Qin, Liu, Yimin, Wu, Guoxiong, and Huang, Jianping

Subjects
MERIDIONAL overturning circulation, MOUNTAINS, HYDROLOGIC cycle
Abstract

The meridional overturning circulation (MOC) in the ocean is a key player in the global climate system, while continental topography provides an essential backdrop to the system. In this study, we design a series of coupled model sensitivity experiments to investigate the influence of various mountain ranges on the global thermohaline circulation. The results highlight the influence of the Tibetan Plateau (TP) on the global thermohaline circulation. It emerges as a requisite for establishing the Atlantic MOC (AMOC) and a determining factor for the cessation of the Pacific MOC (PMOC). Additionally, the Antarctic continent plays a vital role in facilitating the TP to form the AMOC. While the formation of the AMOC cannot be attributed to any single mountain range, the TP alone can inhibit the PMOC's development. By modifying the global hydrological cycle, the TP is likely to have been crucial in molding the global thermohaline circulation. This paper presents quantitative evaluation of the role of different continental mountains in shaping the global meridional overturning circulation. The Tibetan Plateau is likely to have been crucial in molding the global thermohaline circulation. [ABSTRACT FROM AUTHOR]

Published
2024
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65. Landform and lithospheric development contribute to the assembly of mountain floras in China.

Author

Zhao, Wan-Yi, Liu, Zhong-Cheng, Shi, Shi, Li, Jie-Lan, Xu, Ke-Wang, Huang, Kang-You, Chen, Zhi-Hui, Wang, Ya-Rong, Huang, Cui-Ying, Wang, Yan, Chen, Jing-Rui, Sun, Xian-Ling, Liang, Wen-Xing, Guo, Wei, Wang, Long-Yuan, Meng, Kai-Kai, Li, Xu-Jie, Yin, Qian-Yi, Zhou, Ren-Chao, and Wang, Zhao-Dong

Subjects
MOUNTAIN plants, BEDROCK, SPECIES diversity, MOUNTAINS, BOTANY, LANDFORMS
Abstract

Although it is well documented that mountains tend to exhibit high biodiversity, how geological processes affect the assemblage of montane floras is a matter of ongoing research. Here, we explore landform-specific differences among montane floras based on a dataset comprising 17,576 angiosperm species representing 140 Chinese mountain floras, which we define as the collection of all angiosperm species growing on a specific mountain. Our results show that igneous bedrock (granitic and karst-granitic landforms) is correlated with higher species richness and phylogenetic overdispersion, while the opposite is true for sedimentary bedrock (karst, Danxia, and desert landforms), which is correlated with phylogenetic clustering. Furthermore, we show that landform type was the primary determinant of the assembly of evolutionarily older species within floras, while climate was a greater determinant for younger species. Our study indicates that landform type not only affects montane species richness, but also contributes to the composition of montane floras. To explain the assembly and differentiation of mountain floras, we propose the 'floristic geo-lithology hypothesis', which highlights the role of bedrock and landform processes in montane floristic assembly and provides insights for future research on speciation, migration, and biodiversity in montane regions. An analysis of 140 floras from China reveals that high species diversity exists in granite and mixed landforms, while low species diversity is found in karst, Danxia, and desert landforms. Based on these findings, the authors provide new clues for understanding the assembly and differentiation of mountain floras, highlighting the role of bedrock and landform processes. [ABSTRACT FROM AUTHOR]

Published
2024
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66. Impact of rainfall and slope conditions on soil organic carbon dynamics under tea and coffee land cover in Western Ghats Mountain ranges, India.

Author

Rajan, K., Ragupathy, R., Dinesh, D., Eswar, Deepthi, Raja, P., and Surendran, U.

Subjects
*RAINFALL, *CARBON in soils, *TEA plantations, *COFFEE plantations, *SOIL moisture, *SOIL conservation, *LAND cover, *MOUNTAINS
Abstract

Impact of rainfall and slopes on soil organic carbon (SOC) dynamics was assessed under tea and coffee plantations, land covers, in Western Ghats Mountain (WGM). Severe water erosion in the western side of WGM by heavy rainfall and land sloppiness recorded less SOC (3.07%) compared to the eastern side (4.03%) in tea plantations. Similar trend in SOC was observed in coffee plantations, with 1.98% in western side and 3.25% in eastern side. Loss of soil organic carbon stock under tea plantations in western sides was 0.346 million tonnes and in coffee plantations it was 0.190 million tonnes. Hence, the total organic carbon loss was 0.536 million tonnes. Highest SOC content and stocks were recorded in steep slopes in tea and coffee plantations due to dense biomass cover and adoption of soil and water conservation measures. [ABSTRACT FROM AUTHOR]

Published
2024
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67. Evaluating ecosystem protection and fragmentation of the world's major mountain regions.

Author

Theobald, David M., Jacob, Aerin L., Elsen, Paul R., Beever, Erik A., Ehlers, Libby, and Hilty, Jodi

Subjects
*ECOLOGICAL integrity, *MOUNTAINS, *PROTECTED areas, *CONSERVATION projects (Natural resources), *ECOLOGICAL regions, *ECOSYSTEMS, *URBAN agriculture, *MOUNTAIN ecology
Abstract

Conserving mountains is important for protecting biodiversity because they have high beta diversity and endemicity, facilitate species movement, and provide numerous ecosystem benefits for people. Mountains are often thought to have lower levels of human modification and contain more protected area than surrounding lowlands. To examine this, we compared biogeographic attributes of the largest, contiguous, mountainous region on each continent. In each region, we generated detailed ecosystems based on Köppen−Geiger climate regions, ecoregions, and detailed landforms. We quantified anthropogenic fragmentation of these ecosystems based on human modification classes of large wild areas, shared lands, and cities and farms. Human modification for half the mountainous regions approached the global average, and fragmentation reduced the ecological integrity of mountain ecosystems up to 40%. Only one‐third of the major mountainous regions currently meet the Kunming‐Montreal Global Biodiversity Framework target of 30% coverage for all protected areas; furthermore, the vast majority of ecosystem types present in mountains were underrepresented in protected areas. By measuring ecological integrity and human‐caused fragmentation with a detailed representation of mountain ecosystems, our approach facilitates tracking progress toward achieving conservation goals and better informs mountain conservation. [ABSTRACT FROM AUTHOR]

Published
2024
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68. The Asian rock-dwelling antlions Gatzara Navás, 1915 and Nepsalus Navás, 1914 (Neuroptera: Myrmeleontidae): new advancements in systematics, biogeography and life history.

Author

Yuchen Zheng, Yuezheng Tu, Zuqi Mai, Badano, Davide, and Xingyue Liu

Subjects
*ANT lions, *BIOGEOGRAPHY, *NEUROPTERA, *MOUNTAIN forests, *ENDANGERED species, *MOLECULAR phylogeny, *MOUNTAINS
Abstract

The antlion genera Gatzara and Nepsalus (Myrmeleontidae: Dendroleontinae) inhabit mountain forests and are characterised by camouflaging larvae. Both genera remain poorly known despite recent findings on systematics and distribution. We report the discovery of new specimens and the previously unknown larvae of the rare species Gatzara jubilaea Navás, 1915, Nepsalus insolitus (Walker, 1860) and N. decorosus (Yang, 1988). These provide new evidence regarding the affinities of these species, and updated knowledge of the distribution, larval morphology and biology. Moreover, a new species of Nepsalus, N. maclachlani Badano, Zheng & Liu, sp. nov. is described from Sri Lanka based on historical museum collections. The discovery of the immature stages of Gatzara shows that the larvae of this genus share the same specialised ecological characteristics and habits as those of Nepsalus but are less morphologically derived. We also reconstruct a molecular phylogeny of this lineage, estimating the divergence time and biogeographical history by adding the new samples. The evolution of the Gatzara + Nepsalus lineage is associated with two major mountain ranges on the southern Tibetan Plateau, i.e. the Himalayas and the Hengduan Mountains. [ABSTRACT FROM AUTHOR]

Published
2024
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69. The Andes as a semi‐permeable geographical barrier: Genetic connectivity between structured populations in a widespread spider.

Author

Salgado‐Roa, Fabian C., Pardo‐Diaz, Carolina, Rueda‐M, Nicol, Cisneros‐Heredia, Diego F., Lasso, Eloisa, and Salazar, Camilo

Subjects
*POPULATION genetics, *GENE flow, *GENETIC variation, *SPECIES diversity, *POPULATION transfers, *SPIDERS
Abstract

Geographical barriers like mountain ranges impede genetic exchange among populations, promoting diversification. The effectiveness of these barriers in limiting gene flow varies between lineages due to each species' dispersal modes and capacities. Our understanding of how the Andes orogeny contributes to species diversification comes from well‐studied vertebrates and a few arthropods and plants, neglecting organisms unable to fly or walk long distances. Some arachnids, such as Gasteracantha cancriformis, have been hypothesized to disperse long distances via ballooning (i.e. using their silk to interact with the wind). Yet, we do not know how the environment and geography shape its genetic diversity. Therefore, we tested whether the Andes contributed to the diversification of G. cancriformis acting as an absolute or semi‐permeable barrier to genetic connectivity between populations of this spider at opposite sides of the mountain range. We sampled thousands of loci across the distribution of the species and implemented population genetics, phylogenetic, and landscape genetic analyses. We identified two genetically distinct groups structured by the Central Andes, and a third less structured group in the Northern Andes that shares ancestry with the previous two. This structure is largely explained by the altitude along the Andes, which decreases in some regions, possibly facilitating cross‐Andean dispersal and gene flow. Our findings support that altitude in the Andes plays a major role in structuring populations in South America, but the strength of this barrier can be overcome by organisms with long‐distance dispersal modes together with altitudinal depressions. [ABSTRACT FROM AUTHOR]

Published
2024
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70. New mountain ridge modes in a film/substrate bilayer.

Author

Fu, Yuxin, Wang, Yuesheng, and Fu, Yibin

Subjects
*SUBSTRATES (Materials science), *FREE surfaces, *NONLINEAR analysis, *LINEAR statistical models, *MOUNTAINS, *COMPUTER simulation
Abstract

This article is concerned with the buckling of a film-substrate bilayer in a state of plane strain when it is subjected to a uni-axial compression along its free surface. Previous numerical simulations have indicated that pre-stretching the substrate in such a bilayer may lead to the formation of a mountain ridge mode as a secondary bifurcation. We present a scenario in which such a localized mode is also possible as a first bifurcation. It is first shown through a linear bifurcation analysis that by applying a pre-compression to the substrate, the stretch λ versus wavenumber k may develop a local minimum in addition to the local maximum that already exists in the absence of a pre-compression when the film is stiffer than the substrate. As a result, the λ at k = 0 may become larger than the local maximum if the pre-compression exceeds a threshold value, and hence becomes the critical stretch for bifurcation. This case is considered in this article, and it is shown through a weakly nonlinear analysis that multiple long wavelength modes may bifurcate subcritically from the uniform solution and quickly localize in the form of a mountain ridge. The solutions thus found are probably unstable, but form an essential part in the understanding of the global bifurcation behavior. It is hoped that our analytical results will guide future numerical simulations and experimental studies. [ABSTRACT FROM AUTHOR]

Published
2024
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71. Calliphora rohdendorfi (Grunin, 1966) (Diptera: Calliphoridae): a new blow fly in the Italian fauna detected in Calabrian Apennines.

Author

Pezzi, M., Bonelli, D., Mendicino, F., Carlomagno, F., Munari, C., Mistri, M., Chicca, M., Szpila, K., and Bonacci, T.

Subjects
*BLOWFLIES, *DIPTERA, *DIGITAL photography, *PARKS, *NATIONAL parks & reserves, *TERMINALIA
Abstract

Within the family Calliphoridae, the genus Calliphora Robineau-Desvoidy, 1830, includes species of medical, veterinary and forensic relevance. This study reports for the first time the presence of Calliphora rohdendorfi (Grunin, 1966) in the Italian territory, namely in Calabrian Apennines (Southern Italy). The adults of the species were captured by bait bottle and yellow pan traps within a monitoring project of Diptera Brachycera involving Parco Nazionale dell'Aspromonte (Aspromonte National Park), Parco Nazionale della Sila (Sila National Park) and Parco Naturale Regionale delle Serre (Natural Regional Park of Serre), between 2018 and 2021. Calliphora rohdendorfi was identified on detailed morphological bases of both sexes. This was the first description of the general morphology of the female and its terminalia through digital photographs acquired by stereomicroscopy. The species was captured in pine and beech forests at an altitude between 1010 and 1820 m a.s.l. in shaded mountain areas. Prior to the finding in Southern Italy, this species showed an unusually disjointed distribution in Caucasus, Germany and Poland, thus the presence of C. rohdendorfi in Calabrian Apennines provides new and interesting data that require further investigation, because the species could play a role as flower visitor, pollinator and forensic indicator. [ABSTRACT FROM AUTHOR]

Published
2024
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72. Album amicorum.

Author

Danz, Daniela

Subjects
*MOUNTAINS, *HYMNS
Published
2024

73. More Than Human Altitudes: Exploring Assemblages of Bees, Flowers, and People in the Italian Alps.

Author

Zola, Lia

Subjects
*BEEKEEPING, *MOUNTAINS, *ANTHROPOLOGY, *APIARIES
Abstract

My paper wishes to delve into concepts such as assemblage and sympoiesis and examine them within the framework of my ethnographic fieldwork on beekeeping in the Western chain of the Italian Alps. I believe that the implications of notions such as sympoiesis and assemblage can be seen to surface in the context of beekeeping and bee culture, as they emerge as multispecies activities where everything and everyone involved can be regarded as a social actor. In this respect, the most relevant issues I would like to tackle are referred to knowledge production and know-how among beekeepers who keep their apiaries in the plains for most part of the year and move them to mountain areas for the summer. [ABSTRACT FROM AUTHOR]

Published
2024
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74. Landscape-geomorphological factors of the development of mudflow centres in the Goychay River basin.

Author

Tarikhazer, Stara, Karimova, Elina, and Kuchinskaya, Irina

Subjects
WATERSHEDS, ANTHROPOGENIC effects on nature, LAND use mapping, NATURAL disasters, TOPOGRAPHIC maps, MOUNTAINS, GEOMORPHOLOGY
Abstract

In recent decades, as a result of global warming and increased development of mountain areas, which are highly sensitive to anthropogenic impacts, there has been a rapid increase in the number and scale of natural disasters accompanied by material damage and even death of people. An increase in anthropogenic impact on the mid- and high-mountain geosystems is also characteristic of the mountainous territories of Azerbaijan, especially, because this is pronounced within the southern slope of the Greater Caucasus. Here, along with such dangerous processes as avalanches, landslides, etc., mudflows are intensively manifested. New methods of dealing with them should be developed to mitigate their effects. In this regard, the problems of studying the development and mapping of mudflow centres become very relevant. On the southern slope of the Greater Caucasus, the basin of the Goychay River is one of the most subject to mudflow processes, which in recent years has caused significant economic and social losses. The article gives a complete description of the landscape-geomorphological factor as one of the main factors in the formation of mudflow centres and traces their development dynamics. In the course of the study, with the aim of using the ArcGİS software for 2018, the area was calculated and the dynamics of the development of a number of mudflow centres was revealed. In addition, a land use map of the Goychay River basin was compiled with the help of statistical, cartographic (digital topographic and maps of the use of past years) and remote sensing (RS) data (interpretation of aerospace images (ASS) 2002-2019 from the Landsat satellite (scale: 1: 60,000). On the basis of field research and landscape mapping in the "key areas", the influence of mudflow processes on the differentiation of landscapes in the basin of the Goychay River was studied. [ABSTRACT FROM AUTHOR]

Published
2024
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75. Landslide and erosion processes in the high-mountain areas of the Greater Caucasus, Azerbaijan.

Author

Mardanov, Ilham Ildirim oglu

Subjects
REMOTE-sensing images, EROSION, LANDSLIDES, SOIL degradation, WATERSHEDS, MASS-wasting (Geology), MOUNTAINS, LAND use
Abstract

This article presents the findings of ecogeomorphological studies conducted in the high-mountain belt of the southern slope of the Main Caucasus Range by utilizing satellite imagery. The investigations reaffirmed the dynamic nature of exogenous relief-forming processes evident in slope surface conditions and the diverse array of natural landscapes in high-mountain regions. The data acquired facilitated the development of measures aimed at enhancing the natural environment and guiding future land use practices. Through this research, various factors contributing to degradation processes were identified, enabling the pinpointing of erosion-prone areas on both slopes of the Greater Caucasus and the formulation of what we believe to be the most optimal anti-erosion measures scheme. Analysis of satellite imagery revealed that some river basins originating from the southern slope of the Main Caucasus Range exhibit the most pronounced soil and vegetation degradation processes. [ABSTRACT FROM AUTHOR]

Published
2024
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76. Integrating genomics into the genetic management of the endangered mountain yellow-legged frog.

Author

Steiner, Cynthia C., Jacobs, Leah, Choi, Emma, Ivy, Jamie, Wilder, Aryn, Calatayud, Natalie E., and Shier, Debra M.

Subjects
INBREEDING, NUCLEOTIDE sequencing, POPULATION differentiation, GENETIC variation, FROGS, GENOMICS, MOUNTAINS
Abstract

Conservation breeding programs have long been an important management tool for species recovery. Recently, breeding programs have begun to integrate next generation sequencing data into pedigree-based management strategies designed to maximize retention of genetic diversity and minimize inbreeding. In 2005, an ex situ breeding program for two of the three extant, geographically separate populations of the endangered southern mountain yellow-legged frog (Rana muscosa) was established at the San Diego Zoo Wildlife Alliance. To provide improved breeding recommendations for the species, we conducted molecular population genetic assessments using double digest restriction site-associated DNA sequencing data. We first studied genetic diversity, population differentiation, and genetic structure of wild frogs to validate the status of management units in R. muscosa. Genetic diversity was relatively low (HO = 0.166–0.245), population differentiation moderate (FST = 0.29), and patterns of genetic structure and admixture supported the evolutionary divergence of frogs by mountain ranges with limited gene flow. In the breeding program, relatedness estimates identified close relatives amongst the founders, and molecularly-derived kinship values were used to determine and rank suitable breeders to minimize population mean kinship. Ex situ management recommendations highlight the need for importing additional founders from the wild to enhance genetic diversity in the breeding program, as an effective source for genetic restoration. Alternatively, the use of advanced reproductive technologies to capture wild diversity without removal of individuals from the wild seem promising. [ABSTRACT FROM AUTHOR]

Published
2024
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77. House Sparrows Passer domesticus increase in body size and dorsal feather insulation along a Himalayan elevational gradient.

Author

Bala, Renu, Kumar, R. Suresh, Gokhale, Pranav, Mohan, Dhananjai, and Barve, Sahas

Subjects
FEATHERS, BODY size, ENGLISH sparrow, SPARROWS, LOW temperatures, BIRD migration, ALTITUDES
Abstract

Copyright of Journal of Field Ornithology is the property of Resilience Alliance and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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78. Optical Age of Pleistocene Piedmont Alluvium and Holocene Eolian Sand, Jornada del Muerto, New Mexico, USA.

Author

Hall, Stephen A. and Goble, Ronald J.

Subjects
ALLUVIUM, PLEISTOCENE Epoch, LUMINESCENCE, MOUNTAINS
Abstract

The surficial geology of the central Jornada del Muerto is composed of 12 stratigraphic units identified from deep backhoe trenches. Their age is provided by 54 optically stimulated luminescence (OSL) dates, from 173.1 to 0.10 ka. Upper piedmont-slope alluvium from both the Caballo and San Andres Mountains is >65.6 ka and 49.5 to 23.4 ka; lower piedmont alluvium is >66.2 to >48.5 ka and may be middle Pleistocene. Piedmont alluvium was deposited during the wet climate of the late (and perhaps middle) Pleistocene. Jornada Draw alluvium (50--45 ka) accumulated within the same period as the upper piedmont-slope alluvium. Piedmont alluvium is commonly mantled by cover sediment (14.9--5.0 ka) and the eolian Jornada sand sheet (10.3--1.38 ka). Radioisotope (K2O, U, Th) signatures and particle size indicate that the eolian sand sheet is derived from local Caballo Mountains upper piedmont alluvium. The sand sheet formed during the comparatively dry climate of the Holocene. The rate of eolian sand deposition increased during the arid middle Holocene, likely due to a greater supply of sand. All units have high percentages of silt that peaked 23 ka, similar to the last glacial maximum loess in the Central Plains and Midwest. A cumulic paleosol A horizon formed on the sand sheet within the period A.D. 1400 to 1550 during the wetter and cooler conditions of the Little Ice Age, correlating with a similar soil A horizon on other sand sheets in the region. By A.D. 1860, renewed availability of sand and eolian activity across the Jornada valley produced a thin cover sand and, where mesquite shrubs were present, coppice dunes. The historic eolian activity may be related to livestock grazing pressure. [ABSTRACT FROM AUTHOR]

Published
2024
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79. Camera-trapping: wild and domestic species occurrences in three Pyrenean pastures.

Author

Culos, Manon, Ouvrier, Alice, Lerigoleur, Emilie, Bitsch, Sarah, Dewost, Marie, Guédon, Anaïs, Guignet, Jonas, Le Guével, Agathe, Metz, Aymeric, Vilbert, Oscar, Vinette, Coline, and Vimal, Ruppert

Subjects
BEARS, SPECIES diversity, SPECIES distribution, GOATS, MOUNTAINS
Abstract

Background: The co-existence between brown bears (Ursus arctos Linnaeus, 1758) and farmers in the Pyrenees has been a major concern for several decades. The bear's depredation on livestock has multiple implications for traditional practices of extensive grazing and calls for a better understanding of the various ways in which humans and non-humans interact across different territories. The present dataset stems from "The Pastoralism and Bears in the Pyrenees" research project led by the GEODE laboratory (UMR 5602 CNRS-UT2J) in partnership with the Association Dissonances. Focusing on three summer pastures as places of encounter, this project proposes to explore the definition of co-existence, based on context-dependent and constantly evolving relationships between bears and pastoralists. As part of an interdisciplinary approach combining animal geography and ecology, the spatio-temporal activity of the different species was explored using a network of 118 camera traps. New information: The 118 camera traps were installed on the three summer pastures while livestock was present in the mountains between May and October, from 2021 to 2023 and were set in a 400 m x 400 m grid covering a total area of around 2,000 ha. The present dataset contains 57,928 occurrences of 22 taxon categories, including 19 identified species, two family categories (equids and mustelids) and one class category (birds). As pastoral activity is significantly present in these areas, livestock (sheep (Ovis aries Linnaeus, 1758), equids, cows (Bos taurus Linnaeus, 1758) and goats ( Capra hircus Linnaeus, 1758)) account for 16,207 occurrences across the three pastures. The three main wild species captured over the three years and three pastures were the red deer (Cervus elaphus Linnaeus, 1758; 9,517 occurrences), red fox (Vulpes vulpes Linnaeus, 1758; 9,400 occurrences) and wild boar (Sus scrofa Linnaeus, 1758; 4,016 occurrences). Data are aggregated at the grid scale. Nonetheless, the exact locations of each camera trap as well as the photos can be requested from us. [ABSTRACT FROM AUTHOR]

Published
2024
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80. The biogeographic and floristic importance of Djebel Antar (Western Saharan Atlas) for regional biodiversity protection.

Author

Djelid, Selma Amina, Calvão, Teresa, Ballouche, Aziz, Megharbi, Ahmed, and Abdoun, Fatiha

Subjects
PLANT diversity, VEGETATION dynamics, BOUNDARY disputes, ENDANGERED species, WILDLIFE conservation
Abstract

The north western Atlas Mountains (Béchar region) act as refugia for relict populations of many species which highlights their interest as priority areas for conservation. Further work since the beginning of the last century has been difficult because of restricted access in a military area with long-standing border conflicts. This paper aims to analyse the temporal dynamics of the vegetation communities, to assess the floristic diversity of one of those isolated djebels, Djebel Antar, and to contribute to the knowledge of the conservation status of the species found. Surveys from 1925,1951 (published data) and 2017 (fieldwork) were interpreted and investigations were carried out on honey harvesting, production, and marketing in the Benzireg area to better understand and contribute to the development of beekeeping. A high proportion of endemic and very rare species was found. A tendency towards the homogenisation of the flora was detected with a decrease in plant diversity. Beekeeping is being tested as a means of enhancing biodiversity and contributing to the fight against vegetation degradation by reducing pastoral pressure. Djebel Antar retains its function as a refuge for biodiversity and may play an important role in conservation measures. [ABSTRACT FROM AUTHOR]

Published
2024
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81. Recreation and its synergies and trade-offs with other ecosystem services of Alpine and pre-Alpine grasslands.

Author

M.Schmitt, Thomas, Haensel, Maria, Kaim, Andrea, Lee, Heera, Reinermann, Sophie, and Koellner, Thomas

Abstract

Alpine and pre-Alpine grasslands provide numerous ecosystem services including provisioning services (e.g. fodder production), regulating services (e.g. soil erosion reduction), and cultural services (e.g. recreation). While intensively managed grasslands specifically target the production of fodder, more extensively used grasslands are known for being hotspots of biodiversity. However, there is a need to better understand the relationship among the supply of ecosystem services, specifically regarding the use of grasslands for cultural ecosystem services such as recreation. In this study, we investigated the synergies and trade-offs of ecosystem services and analyzed underlying variables related to the recreational use of grasslands. We investigated the supply of recreation (indicated by Photo-User-Days from geo-tagged photos on grasslands), fodder production (indicated by yield), and regulating and habitat ecosystem services (indicated by agri-environmental payments), and analyzed their relationship to management-related variables with a Redundancy Analysis. To better explain the recreational use of grasslands, we further analyzed how environmental and infrastructural features influence the occurrence of Photo-User-Days with a hurdle regression. Finally, we conducted spatial analyses to understand the distribution of Photo-User-Days in space. We found a weak but significant negative relationship between Photo-User-Days and yield, which implies that people slightly prefer extensive grassland to intensive grassland for recreation. Our results also show that agri-environmental schemes targeted towards extensive grassland management can positively influence the recreational use. Other factors, such as proximity to touristic features (e.g. castles), presence of infrastructural features (e.g. cable cars), and environmental characteristics (e.g. low share of croplands, distance to forests), also influenced the spatial distribution of photos on grasslands. The importance of these factors underscores the value of grasslands as a component of the cultural landscape for recreational purposes. These results also suggest that cultural ecosystem services of grasslands can be considered to be co-produced by natural, social, and infrastructural components. The study further discusses limitations to the explanatory power of geo-tagged photo analysis to determine the wide range of cultural ecosystem services of grasslands. We conclude that grasslands play an important role for recreation in (pre-)Alpine landscapes, which can also be effectively supported through targeted agri-environmental payments. [ABSTRACT FROM AUTHOR]

Published
2024
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82. A Comprehensive Review on Sediment Transport, Flow Dynamics, and Hazards in Steep Channels.

Author

Mir, Ajaz Ahmad and Patel, Mahesh

Subjects
SEDIMENT transport, FLUID dynamics, MOUNTAINS, MACHINE learning, SOIL granularity
Abstract

The hydrological channel networks of the steep mountains are extensively designated and organized geographic systems and are very complicated. They are composed of granular beds that are uneven and are subjected to fluid forces that fluctuate spatially and temporally. The flow and movement of sediment in these streams are significantly shaped by large rocks such as boulders. However, it is difficult to comprehend these mountain streams because significant information is unavailable regarding these channels as compared to plane bed streams. To address this issue, a critical review of the numerical, computational fluid dynamics, and machine learning mechanisms underlying sediment transport across different flow conditions in steep channels is presented while considering the current and foreseeable conditions for various sediment transport phenomena. The present study emphasized to carry out further analysis on these steep channels using advanced available techniques to get an insight into the morphology of these channels. Furthermore, the hazards associated with steep mountain channels are reviewed as they have a significant impact on infrastructure and habitation in mountainous regions. [ABSTRACT FROM AUTHOR]

Published
2024
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83. A Translation Note on Pseudo-Seneca, Her. O. 1907.

Author

Noussia, Eirene Evdokia

Subjects
*EPITHETS, *MOUNTAINS, *INTERTEXTUAL analysis, *SKY, *LITERATURE
Abstract

The passage from pseudo-Seneca, Hercules Oetaeus 1905-1908 describes how Hercules briefly replaced the Titan Atlas in his duties supporting the Sky. However, the poet refers to Olympus, characterizing it with an epithet that does not belong to a mountain but to the sky. In this way an equation is created between these two places, mountain and sky. What is noteworthy in the passage of pseudo-Seneca, however, is not the general use of Olympus as a synonym for the sky, but the use of a designation of the sky for Olympus that completes the image of the identification of Olympus with the sky. Such mixing of adjectives is and remains rare as evidenced by the intertextual analysis attempted in the article. Moreover, mythology also mentions that Atlas holds the heavens forever (Hesiod, Vergil). It therefore follows that verse 1907 should be translated as 'of the starry sky' and not 'of starry Olympus'. [ABSTRACT FROM AUTHOR]

Published
2024
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84. Influences of ski‐runs, meadow management and climate on the occupancy of reptiles and amphibians in a high‐altitude environment of Italy.

Author

Chiacchio, Michele, Rödder, Dennis, Henle, Klaus, and Grimm‐Seyfarth, Annegret

Subjects
*AMPHIBIANS, *VIVIPAROUS lizard, *REPTILES, *RANA temporaria, *FRAGMENTED landscapes, *WINTER, *ECOSYSTEMS, *MOUNTAIN ecology
Abstract

Alpine ecosystems harbour a rich and highly specialised biodiversity, which is particularly susceptible to anthropogenic disturbances such as habitat loss and fragmentation as well as to climate change. Combined with other forms of land‐use conversion, construction and maintenance of ski resorts can have severe consequences on alpine biodiversity. In this study, we show how one amphibian and two reptile species, namely Rana temporaria, Zootoca vivipara and Vipera berus, respond to such impacts by means of a multi‐season occupancy analysis. We found all three species both in and outside ski‐runs, showing that these habitats do not necessarily preclude their occurrence. Contrarily, this is influenced more by microhabitat availability, such as ground vegetation, humid areas and rock cover, rather than by macro‐characteristics like elevation or habitat type. Moreover, we found a climatic influence on the year‐to‐year occupancy change of the species, with activity‐month conditions being more relevant than overwintering ones. Our results demonstrate how, in the specific case of reptiles and amphibians, ski resorts do not necessarily limit species' occurrence and that a mild series of management actions might secure the species' persistence in the area. [ABSTRACT FROM AUTHOR]

Published
2024
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85. The Geography of Metacommunities: Landscape Characteristics Drive Geographic Variation in the Assembly Process through Selecting Species Pool Attributes.

Author

Khattar, Gabriel and Peres-Neto, Pedro R.

Subjects
*SPECIES pools, *LIFE history theory, *GEOGRAPHY, *LANDSCAPES, *PUBLIC spaces
Abstract

The nonrandom association between landscape characteristics and the dominant life history strategies observed in species pools is a typical pattern in nature. Here, we argue that these associations determine predictable changes in the relative importance of assembly mechanisms along broadscale geographic gradients (i.e., the geographic context of metacommunity dynamics). To demonstrate that, we employed simulation models in which groups of species with the same initial distribution of niche breadths and dispersal abilities interacted across a wide range of landscapes with contrasting characteristics. By assessing the traits of dominant species in the species pool in each landscape type, we determined how different landscape characteristics select for different life history strategies at the metacommunity level. We analyzed the simulated data using the same analytical approaches used in the study of empirical metacommunities to derive predictions about the causal relationships between landscape characteristics and dominant life histories in species pools, as well as their reciprocal influence on empirical inferences regarding the assembly process. We provide empirical support for these predictions by contrasting the assembly of moth metacommunities in a tropical versus a temperate mountainous landscape. Together, our model framework and empirical analyses demonstrate how the geographic context of metacommunities influences our understanding of community assembly across broadscale ecological gradients. [ABSTRACT FROM AUTHOR]

Published
2024
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86. Lineage diversification of the Sky Island treefrog Scinax curicica (Anura, Hylidae) in the Espinhaço Mountain Range.

Author

Santana, Diego J, Ragalzi, Eric, Koroiva, Ricardo, Mângia, Sarah, Ceron, Karoline, Leite, Felipe S F, and Shepard, Donald B

Subjects
*HYLIDAE, *ANURA, *ARCHIPELAGOES, *ECOLOGICAL niche, *MOUNTAINS, *ISLANDS
Abstract

Sky Islands present unique landscapes for organismal evolution because they comprise high mountain peaks separated by low valleys with vastly different environmental conditions. The Espinhaço Mountain Range in eastern Brazil is formed of groups of Sky Islands in the states of Minas Gerais and Bahia. Several phylogeographic studies have discovered strong genetic structure among populations of organisms occupying the campo rupestre (rupestrian fields) in the mountains of the Espinhaço. In this study, we aimed to test the hypothesis of spatio-temporal structuring of populations of Scinax curicica in the campo rupestre of the Espinhaço. We recovered three lineages of S. curicica : one lineage occurs in the north portion of the Espinhaço (North Lineage) in an area called Chapada Diamantina, and other two occur in the south portion of the Espinhaço (South 1 and South 2 Lineages) in Minas Gerais. All three lineages showed stable population sizes through time, probably due to the climatic stability of mountaintop areas, which was supported by ecological niche modelling. [ABSTRACT FROM AUTHOR]

Published
2024
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87. Intermittency of Gravity Wave Potential Energy Generated by Mountains Revealed from COSMIC-2 Observations.

Author

Wei, Jiarui, Xu, Jiyao, and Liu, Xiao

Subjects
*GRAVITY waves, *WAVE energy, *POTENTIAL energy, *LOGNORMAL distribution, *PROBABILITY density function, *MOUNTAIN soils, *ATMOSPHERIC temperature
Abstract

The intermittency of gravity wave potential energy (GWPE) in the upper troposphere and stratosphere was investigated using the Constellation Observing System for Meteorology, Ionosphere, and Climate-2 (COSMIC-2) temperature data over three typical mountains (Tibetan Plateau, Rocky Mountains, and Andes). These typical mountains have high sea level elevations but different land–sea contrast. The probability density function (PDF) of GWPE has the independent variable of GWPE and dependent variable of occurrence probability of GWPE over a region. Our analysis showed that the PDFs of GWPE over these three mountains roughly followed lognormal distributions in all heights and months. But, the key parameters (mean value and standard deviation) of lognormal distribution varied with heights and months. Above each mountain, the two key parameters exhibited similar temporal and spatial distributions. They had the largest values around the tropopause region, smaller values in the lower stratosphere (~20–30 km), and larger values in the upper stratosphere (~35–45 km). The intermittency of GWs is represented as the ratio of the GWPE at 50th percentile to the GWPE at 90th percentile. The weakest intermittency was at ~20–30 km (above the zonal mean winds of zero) over the Tibetan Plateau and Rocky Mountains in all months and over the Andes from November to March, respectively. Generally, the weakest intermittency (~0.4) occurred in the region where the key parameters were the smallest around summer. The key parameters of lognormal distribution were dominated by annual variation over the Andes throughout the height range, 8–50 km. However, the semiannual variations are also significant in the lower stratosphere over the Tibetan Plateau and Rocky Mountains. The seasonal variations in the intermittency were not as obvious as those of the key parameters. The lognormal distributions and the intermittencies derived here provide an observational constraint on the tunable parameters in GW parameterization schemes. [ABSTRACT FROM AUTHOR]

Published
2024
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88. Phylogeography of the freshwater crab Potamon persicum (Decapoda: Potamidae): an ancestral ring species?

Author

Afzali, Yaser Amir, Naderloo, Reza, Keikhosravi, Alireza, and Klaus, Sebastian

Subjects
*PHYLOGEOGRAPHY, *FRESHWATER crabs, *DECAPODA, *GENE flow, *FRAGMENTED landscapes, *SPECIES
Abstract

The Zagros Mountains, characterized by complex topography and three large drainage systems, harbor the endemic freshwater crab Potamon persicum in Iran. Our study delves into the evolutionary history of P. persicum , utilizing two mitochondrial and one nuclear marker. We collected 214 specimens from 24 localities, identifying 21 haplotypes grouped into two major evolutionary lineages. Substantial differentiation exists between drainage systems and lineages. Historical demographic analysis revealed a significant decrease in population size during the late Holocene, accompanied by a recent population bottleneck. Species distribution modeling has revealed eastward shifts in suitable habitats between the last glacial maximum and the present day. Following the last glacial maximum, habitat fragmentation occurred, resulting in the establishment of small populations. These smaller populations are more vulnerable to climatic and geological events, thereby limiting gene flow and accelerating genetic differentiation within species. Historical biogeographic analysis traced the origin of P. persicum to the western Zagros Mountains, with major genetic divergence occurring during the Pleistocene. Our genetic analyses suggest that P. persicum may have shown a genetic pattern similar to a classical ring species before the Pleistocene. The Namak Lake sub-basin could have served as a contact zone where populations did not interbreed but were connected through gene flow in a geographic ring. Currently, genetic separation is evident between basins, indicating that P. persicum in the Zagros Mountains is not a contemporary ring species. Also, our biogeographical analysis estimated that range evolution may have been driven initially by dispersal, and only during the late Pleistocene by vicariance. [ABSTRACT FROM AUTHOR]

Published
2024
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89. Niche conservatism and strong phylogenetic signals in climate, soil, and morphological variation of Neotropical firs (Abies, Pinaceae).

Author

Cruz‐Nicolás, Jorge, Martínez‐Méndez, Norberto, Aguirre‐Planter, Erika, Eguiarte, Luis E., and Jaramillo‐Correa, Juan P.

Subjects
*PINACEAE, *FIR, *GENE flow, *TROPICAL conditions, *RANDOM walks, *MOUNTAINS, REPRODUCTIVE isolation
Abstract

Interspecific trait divergence may reflect adaptation and reproductive isolation, particularly after the rapid differentiation that may follow the colonization of new environments. Although new lineages are generally expected to be morphologically and ecologically similar to their ancestors, environmental forces can also drive adaptive differentiation along specific phenotypic axes. We used climate niche models and comparative analyses based on a previously inferred phylogeny to examine the history of ecological and morphological divergence of Neotropical firs (Abies Mill., Pinaceae), a group of conifers that have recently colonized and diversified in the mountains of Mexico and northern Central America. We inferred past secondary contact zones by comparing current and past climate niche projections and looked for evidence of recent interspecific gene flow using genomic data. Neotropical firs have similar niches to each other and show a strong phylogenetic signal for most evaluated morphological traits. Analyses based on individual variables suggested a random walk model of differentiation. However, early adaptation to tropical conditions is inferred in the ancestor of the southernmost firs, as all modern southern taxa are differentiated climatically from Abies concolor, the northernmost species. In addition, observed autapomorphic traits for soil properties and the number of resin ducts in needles are consistent with possible species‐specific adaptations. Thus, a combination of nonadaptive and adaptive processes along different phenotypic axes, some related to the environment, likely operated after the southward migration of this plant lineage from North America and its subsequent radiation in the Neotropics. [ABSTRACT FROM AUTHOR]

Published
2024
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90. Elevational variation in morphology and biomass allocation in carpathian snowbell Soldanella carpatica (Primulaceae).

Author

Kiełtyk, Piotr

Subjects
FLOWERING of plants, PRIMULACEAE, BIOMASS, PLANT size, CLIMATE change, PLANT reproduction, PHENOTYPIC plasticity
Abstract

Plants growing along wide elevation gradients in mountains experience considerable variations in environmental factors that vary across elevations. The most pronounced elevational changes are in climate conditions with characteristic decrease in air temperature with an increase in elevation. Studying intraspecific elevational variations in plant morphological traits and biomass allocation gives opportunity to understand how plants adapted to steep environmental gradients that change with elevation and how they may respond to climate changes related to global warming. In this study, phenotypic variation of an alpine plant Soldanella carpatica Vierh. (Primulaceae) was investigated on 40 sites distributed continuously across a 1,480-m elevation gradient in the Tatra Mountains, Central Europe. Mixed-effects models, by which plant traits were fitted to elevation, revealed that on most part of the gradient total leaf mass, leaf size and scape height decreased gradually with an increase in elevation, whereas dry mass investment in roots and flowers as well as individual flower mass did not vary with elevation. Unexpectedly, in the uppermost part of the elevation gradient overall plant size, including both below-and aboveground plant parts, decreased rapidly causing abrupt plant miniaturization. Despite the plant miniaturization at the highest elevations, biomass partitioning traits changed gradually across the entire species elevation range, namely, the leaf mass fraction decreased continuously, whereas the flower mass fraction and the root:shoot ratio increased steadily from the lowest to the highest elevations. Observed variations in S. carpatica phenotypes are seen as structural adjustments to environmental changes across elevations that increase chances of plant survival and reproduction at different elevations. Moreover, results of the present study agreed with the observations that populations of species from the 'Soldanella' intrageneric group adapted to alpine and subnival zones still maintain typical 'Soldanella'-like appearance, despite considerable reduction in overall plant size. [ABSTRACT FROM AUTHOR]

Published
2024
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91. Most High Mountainous Areas Around the World Present Elevation‐Dependent Aridification After the 1970s.

Author

Ma, Jiapei, Wang, Genxu, Sun, Shouqin, Li, Jinlong, Huang, Peng, Guo, Linmao, Li, Kai, and Lin, Shan

Subjects
VAPOR pressure, MOUNTAIN soils, SEA level, HUMIDITY control, ATMOSPHERIC temperature, CLIMATE change
Abstract

The research on the trends of mountainous aridity and the issue of elevation‐dependent aridity (EDA) has long been hindered by limitations in data validity. In this study, we present global monthly merged data sets of Vapor Pressure Deficit and Aridity Index (AI) from 1960 to 2020, aiming to detect and attribute elevation‐dependent patterns of atmospheric and soil aridity in six representative high mountainous areas worldwide. Our findings reveal that most of the mountainous regions experienced significant aridification after the 1970s (p < 0.05). The Rocky Mountains and Ethiopian Highlands are identified as the most vulnerable areas, with both atmospheric and soil aridity increasing by 13% across all elevation gradients. Significant humidification has been observed only in High Asian Regions at 4,000 m above sea level with an approximate decrease of 11% in soil AI. In both temporal and spatial patterns, soil aridity exhibits stronger heterogeneity compared to atmospheric aridity, with certain regions and seasons showing humidification, despite the overall aridification trend. Elevation‐dependent aridity is observed in two‐thirds of the mountains, but whether high altitude alleviates or amplifies aridity depends on the pattern of precipitation changes at different elevations. The rise in air temperature is the primary driving factor for soil and atmospheric aridification, contributing to over 50% of each. In two‐thirds of the regions, changes in precipitation exacerbate soil aridity. Simulations show that human activities are closely related to the ongoing prolonged atmospheric aridification. This study contributes to a comprehensive understanding of global mountainous aridity evolution projected under climate change. Plain Language Summary: Due to limitations in data validity, the conclusions regarding mountainous aridity changes and related elevation‐dependent aridity issues have often been contradictory. To address this issue, we generated a comprehensive data set of drought indices by integrating observed and simulated data, covering the period from 1960 to 2020. Our analysis revealed that the 1970s marked a significant turning point for aridity patterns in mountainous regions globally. Since then, except for the High Asian Regions, both soil and atmospheric aridity have exhibited a rapid increase in mountainous areas worldwide, with the most severe aridification observed in the Rocky Mountains and Ethiopian Highlands. We also identified a certain relationship between the severity of aridification and elevation gradients, although it is not a straightforward relationship where higher elevations necessarily experience more severe aridification. Importantly, our attribution analysis suggests that human activities may impact the observed atmospheric aridification in mountainous regions on a global scale. Key Points: The period from 1970 to 1980 witnessed a significant shift from humidification to aridification in most mountainous regions worldwideThe relationship between changes in precipitation and elevation gradients shapes the distinct patterns of elevation‐dependent aridityProlonged atmospheric aridification in mountainous regions may not be solely attributed to natural variability [ABSTRACT FROM AUTHOR]

Published
2024
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92. TEUCRIUM FERRERIANUM SP. NOV. (SECT. POLIUM, LAMIACEAE), A NEW SPECIES FOR THE IBERIAN FLORA.

Author

ROSELLÓ, Roberto, GALLEGO, P. Pablo FERRER, GÓMEZ, José, and PERIS, Juan B.

Subjects
GERMANDER, MOUNTAINS, INFLORESCENCES, CALYX
Abstract

Copyright of Flora Montibérica is the property of Flora Montiberica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024

93. Frequent and strong cold‐air pooling drives temperate forest composition.

Author

Pastore, Melissa A., Classen, Aimée T., D'Amato, Anthony W., English, Marie E., Rand, Karin, Foster, Jane R., and Adair, E. Carol

Subjects
*TEMPERATE forests, *TEMPERATURE inversions, *ATMOSPHERIC temperature, *VEGETATION patterns, *FOREST plants, *COLD adaptation
Abstract

Cold‐air pooling is an important topoclimatic process that creates temperature inversions with the coldest air at the lowest elevations. Incomplete understanding of sub‐canopy spatiotemporal cold‐air pooling dynamics and associated ecological impacts hinders predictions and conservation actions related to climate change and cold‐dependent species and functions. To determine if and how cold‐air pooling influences forest composition, we characterized the frequency, strength, and temporal dynamics of cold‐air pooling in the sub‐canopy at local to regional scales in New England, USA. We established a network of 48 plots along elevational transects and continuously measured sub‐canopy air temperatures for 6–10 months (depending on site). We then estimated overstory and understory community temperature preferences by surveying tree composition in each plot and combining these data with known species temperature preferences. We found that cold‐air pooling was frequent (19–43% seasonal occurrences) and that sites with the most frequent inversions displayed inverted forest composition patterns across slopes with more cold‐adapted species, namely conifers, at low instead of high elevations. We also observed both local and regional variability in cold‐air pooling dynamics, revealing that while cold‐air pooling is common, it is also spatially complex. Our study, which uniquely focused on broad spatial and temporal scales, has revealed some rarely reported cold‐air pooling dynamics. For instance, we discovered frequent and strong temperature inversions that occurred across seasons and in some locations were most frequent during the daytime, likely affecting forest composition. Together, our results show that cold‐air pooling is a fundamental ecological process that requires integration into modeling efforts predicting future forest vegetation patterns under climate change, as well as greater consideration for conservation strategies identifying potential climate refugia for cold‐adapted species. [ABSTRACT FROM AUTHOR]

Published
2024
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94. The effect of livestock grazing on plant diversity and productivity of mountainous grasslands in South America – A meta‐analysis.

Author

Sandoval‐Calderon, Ana Patricia, Rubio Echazarra, Nerea, van Kuijk, Marijke, Verweij, Pita A., Soons, Merel, and Hautier, Yann

Subjects
*GRASSLANDS, *PLANT diversity, *SOIL conservation, *PLANT productivity, *GRAZING, *SPECIES diversity
Abstract

Mountainous grasslands in South America, characterized by their high diversity, provide a wide range of contributions to people, including water regulation, soil erosion prevention, livestock feed provision, and preservation of cultural heritage. Prior research has highlighted the significant role of grazing in shaping the diversity and productivity of grassland ecosystems, especially in highly productive, eutrophic systems. In such environments, grazing has been demonstrated to restore grassland plant diversity by reducing primary productivity. However, it remains unclear whether these findings are applicable to South American mountainous grasslands, where plants are adapted to different environmental conditions. To address this uncertainty, we conducted a meta‐analysis of experiments excluding livestock grazing to assess its impact on plant diversity and productivity across mountainous grasslands in South America. In alignment with studies in temperate grasslands, our findings indicated that herbivore exclusion resulted in increased aboveground biomass but reduced species richness and Shannon diversity. The effects of grazing exclusion became more pronounced with longer durations of exclusion; nevertheless, they remained resilient to various climatic conditions, including mean annual precipitation and mean annual temperature, as well as the evolutionary history of grazing. In contrast to results observed in temperate grasslands, the reduction in species richness due to herbivore exclusion was not associated with increased aboveground biomass. This suggests that the processes governing (sub)tropical grassland plant diversity may differ from those in temperate grasslands. Consequently, further research is necessary to better understand the specific factors influencing plant diversity and productivity in South American montane grasslands and to elucidate the ecological implications of herbivore exclusion in these unique ecosystems. [ABSTRACT FROM AUTHOR]

Published
2024
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95. Predictive Production Models for Mountain Meadows: A Review.

Author

Jarne, Adrián, Usón, Asunción, and Reiné, Ramón

Subjects
*PREDICTION models, *MOUNTAIN meadows, *BIODIVERSITY conservation, *PLANT diversity, *PLANT conservation, *MOWING, *MOUNTAIN soils, *MOUNTAINS
Abstract

Meadows are the most important source of feed for extensive livestock farming in mountainous conditions, as well as providing many environmental services. The actual socioeconomic situation and climate change risk its conservation. That is why finding its optimal management is important. To do so, predictive models are a useful tool to determine the impact of different practices and estimate the consequences of future scenarios. Empirical models are a good analytical tool, but their applications in the future are limited. Dynamic models can better estimate the consequences of newer scenarios, but even if there are many dynamic models, their adaptation into grassland production estimation is scarce. This article reviews the most suitable predictive models for grass production in mountain meadows when data on agricultural management (mowing, grazing, fertilization) and forage value are available, considering the conservation of plant biodiversity. [ABSTRACT FROM AUTHOR]

Published
2024
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96. Unraveling the genetic diversity of Ceiba pubiflora (Malvaceae) in isolated limestone outcrops: Conservation strategies.

Author

Brandão, Murilo Malveira, de Almeida Vieira, Fábio, Neves, Abidã Gênesis da Silva, Santos, Rubens Manoel dos, Carvalho, Dulcineia de, Menezes, Elytania Veiga, Moreira, Patrícia Abreu de, Oliveira, Dario Alves de, Júnior, Afrânio Farias de Melo, and Royo, Vanessa de Andrade

Subjects
*GENETIC variation, *MICROSATELLITE repeats, *REMNANT vegetation, *TROPICAL dry forests, *LIMESTONE, *COTTON, *MOUNTAINS
Abstract

Seasonally Dry Tropical Forests (SDTFs) located on limestone outcrops are vulnerable to degradation caused by timber logging and limestone extraction for cement production. Some of these forests represent the last remnants of native vegetation cover, functioning as isolated islands. Ceiba pubiflora (Malvaceae) is a tree frequently found on limestone outcrops in the central region of Brazil. This study aimed to evaluate the genetic diversity and identify suitable populations for the establishment of Management Units (MUs) for conservation. Inter-simple sequence repeat markers were employed to assess the genetic diversity in ten populations sampled from the Caatinga, Cerrado, and Atlantic Forest biomes. The species exhibited substantial genetic diversity (HT = 0.345; PLP = 97.89%). Populations SAH, JAN, and MON demonstrated elevated rates of polymorphic loci (> 84.2%) along with notable genetic diversity (He > 0.325). Additionally, these populations were the primary contributors to gene flow. The analysis of molecular variance (AMOVA) indicated that most genetic variation occurs within populations (91.5%) than between them. In the Bayesian analysis, the ten populations were clustered into five groups, revealing the presence of at least three barriers to gene flow in the landscape: 1) the Central Plateau or Paranã River valley; 2) near the Espinhaço mountains or the São Francisco River valley; and 3) around the Mantiqueira mountain range, Chapada dos Veadeiros plateau, and disturbed areas. A positive and statistically significant correlation was observed between genetic (θB) and geographic distances (r = 0.425, p = 0.008). Based on these findings, we propose the establishment of Management Units in Minas Gerais state, encompassing the (1) southern region (MIN population), (2) central region (SAH population), and (3) north region (MON population), as well as in Goiás state, covering the (4) Central Plateau region. These units can significantly contribute to preserving the genetic diversity of these trees and protecting their habitat against ongoing threats. [ABSTRACT FROM AUTHOR]

Published
2024
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97. A missing piece is found: a new species of Paepalanthus (Poales, Eriocaulaceae) and the puzzling relations of the campos rupestres mountaintop floras of eastern Minas Gerais, Brazil.

Author

Rocha, Luiz Henrique, Gonella, Paulo Minatel, and Andrino, Caroline Oliveira

Subjects
*ANIMAL species, *BIODIVERSITY conservation, *BOTANY, *PLANT species, *SPECIES, *MOUNTAINS
Abstract

Paepalanthus is a diverse genus characteristic of the campos rupestres, a megadiverse vegetation found on mountaintops of mainly quartzitic mountain ranges of central-eastern Brazil. Recent efforts on prospecting the biodiversity of Serra do Padre Ângelo, a small mountain complex in eastern Minas Gerais, yielded several new plant and animal species, highlighting the urgency of conservation actions towards this still unprotected area. Here, we describe yet another new species found in the campos rupestres of these mountains, Paepalanthus magnus, a mountaintop microendemic species morphologically similar to taxa found in the Espinhaço Range, over 200 km distant, a biogeographic pattern shared by several other species. The affinities of the new species are discussed, and we provide illustrations, photographs, and SEM photomicrographs of the seed. We also discuss the conservation status of the species, which is preliminarily assessed as Critically Endangered, reinforcing the urgent need to address the conservation of the unique biodiversity of Serra do Padre Ângelo. [ABSTRACT FROM AUTHOR]

Published
2024
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98. Upward and Poleward (but Not Phenological) Shifts in a Forest Tenebrionid Beetle in Response to Global Change in a Mediterranean Area.

Author

Fattorini, Simone

Subjects
*BEETLES, *PLANT phenology, *CLIMATE change in literature, *CLIMATE change, *MEDIAN (Mathematics), *COMMUNITY forests, *INSECT populations
Abstract

Simple Summary: There is increasing interest in the study of how the ongoing climate change is affecting insect populations. However, most research has been focused on a limited number of groups that are particularly charismatic or expected to respond more clearly to climate change. Moreover, most research has been developed in a few areas (especially northern and central European countries), while others (such as the Mediterranean basin) have been largely overlooked. Therefore, more empirical research is needed, particularly on less charismatic species, groups that are expected to react less dramatically to climatic change, and key areas that are still poorly investigated. This study investigates changes in distributional and activity patterns in a common, ecologically tolerant, forest tenebrionid beetle in a region (central Italy) within the Mediterranean biodiversity hotspot, an area strongly subjected to the ongoing climate change, but for which research is still limited. By analyzing changes in elevation, latitude, longitude, and seasonal activity between 1900–1980 and 1981–2022, the results provided insights into the potential effects of climate change on this species. The beetle's average values of elevation and latitude were found to have been increased in the second period. In response to rising temperatures, the species became more frequent at higher elevation and in northern places. No strong evidence was found for an earlier species seasonal activity, but this could be due to the inclusion in the analysis of likely overwintering individuals. The findings suggest that even thermally tolerant species can undergo distributional shifts in elevation and latitude, even at a relatively small scale. There is an increasing volume of literature on the impact of climate change on insects. However, there is an urgent need for more empirical research on underrepresented groups in key areas, including species for which the effects of climatic change may seem less evident. The present paper illustrates the results of a study on a common forest tenebrionid beetle, Accanthopus velikensis (Piller and Mitterpacher, 1783), at a regional scale within the Mediterranean basin. Using a large set of records from Latium (central Italy), changes in the median values of elevation, latitude, longitude, and phenology between two periods (1900–1980 vs. 1981–2022) were tested. Records of A. velikensis in the period 1981–2022 showed median values of elevation and latitude higher than those recorded in the first period. Thus, in response to rising temperatures, the species became more frequent at higher elevation and in northern places. By contrast, A. velikensis does not seem to have changed its activity pattern in response to increased temperatures, but this might be an artifact due to the inclusion of likely overwintering individuals. The results obtained for A. velikensis indicate that even thermally euryoecious species can show changes in their elevational and latitudinal distribution, and that poleward shifts can be apparent even within a small latitudinal gradient. [ABSTRACT FROM AUTHOR]

Published
2024
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99. Infilled lakes (P ampas) of the Cordillera Blanca, Peru: Inventory, sediment storage, and paleo outbursts.

Author

Emmer, Adam

Subjects
*LAKES, *SEDIMENTS, *INVENTORIES, *GLACIAL lakes, *GLACIAL landforms, *MOUNTAINS
Abstract

Infilled lakes are a prevalent geomorphic feature in the intricate high mountain landscape of the Cordillera Blanca, Peru. Despite their apparent geomorphic, hydrological, and ecological importance, a systematic inventory of these areas has been lacking. This study presents an inventory of infilled lakes in the Cordillera Blanca. A total of 962 infilled lake polygons have been manually mapped, covering an area of nearly 90 km2 (the area of individual mapped polygons ranges from 0.001 km2 to 1.760 km2), more than double the area of existing lakes (40 km2) and the majority of flat areas (62% of areas with slope ≤5°). The study reveals that infilled bedrock-dammed lakes are the most common type (42%), while moraine-dammed lakes account for the majority of the infilled lake area (52%) and sediment volume (52% to 57%). Considering high uncertainty of infilled basins' morphology, the estimated sediment volume of infilled lakes ranges between 0.9 km3 and 2.3 km3 (compared to 0.79 km3 to 1.15 km3 of water stored in existing lakes). The case study of Lake Aguascocha catchment reveals a mean sediment yield of 0.64 to 1.63∙106 m3∙km−2 during the past 10.7 ± 0.3 ka, that is, a mean annual sediment yield of 58.5 to 156.4 m3∙km−2∙yr−1. Furthermore, 65 locations where preserved geomorphic evidence indicates possible outburst floods in the past are identified. These areas are particularly important for understanding patterns of lake outburst occurrence on longer timescales than traditionally considered in lake outburst flood hazard studies. The dataset presented in this study is intended to serve as a basis for identifying sites suitable for further site-specific paleo-geographical, sedimentological, geochronological as well as broader mountain landscape evolution studies. [ABSTRACT FROM AUTHOR]

Published
2024
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100. Bromeliad populations perform distinct ecological strategies across a tropical elevation gradient.

Author

Chaves, Cleber J. N., Cacossi, Tami C., Matos, Taynara S., Bento, João P. S. P., Gonçalves, Lucas N., Silva, Simone F., da Silva‐Ferreira, Marcus V., Barbin, Douglas F., Mayer, Juliana L. S., Sussulini, Alessandra, Ribeiro, Rafael V., and Palma‐Silva, Clarisse

Subjects
*BROMELIACEAE, *ALTITUDES, *LEAF temperature, *PLANT species diversity, *ENDEMIC species, *SEA level
Abstract

The effect of environmental gradients on the remarkable diversity of mountain‐associated plants and on the species' abilities to cope with climate change transcends species‐specific strategies. For instance, our understanding of the impact of thermal gradients on ecological divergences in populations of widely distributed species is limited, although it could provide important insights regarding species' response to climate change.Here, we investigated whether populations of an endemic species broadly distributed across an elevation gradient employ unique or multiple divergent ecological strategies according to specific environmental conditions. We hypothesised that populations employ distinct strategies, producing a tolerance‐avoidance trade‐off related to the thermal conditions they experience across elevations.We conducted our research with 125 individuals of Pitcairnia flammea (Bromeliaceae) sampled from various elevations spanning from sea level to ~2200 m and cultivated under the same conditions. To assess specific ecological strategies of P. flammea populations across elevations, we examined leaf temperature, heat and cold tolerances, as well as other structural/morphological, optical, physiological and biochemical leaf traits.We majorly observed that water‐saving traits diminish as elevation increases while membrane fluidity, majorly associated with unsaturated and very‐long‐chain lipids, enhances. Low‐elevation individuals of P. flammea invest in water storage tissues, which likely prevent excessive water loss through the intense transpiration rates under warming periods. Conversely, high‐elevation plants exhibit increased membrane fluidity, a possible response to the stiffening induced by low temperature.Our results revealed a tolerance‐avoidance trade‐off related to thermal strategies of populations distributed across an elevation gradient. Low‐elevation plants avoid excessive leaf temperature by investing in water‐saving traits to maintain transpiration rates. High‐elevation individuals, in turn, tend to invest in membrane properties to tolerate thermal variations, particularly cold events.Our findings challenge the conventional notion that plants' vulnerability to warming depends on species‐specific thermal tolerance by showing diverse thermal strategies on populations across an elevation gradient. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published
2024
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