Chimpanzee population structure in Cameroon and Nigeria is associated with habitat variation that may be lost under climate change

Eulychnia ritteri is endemic to Peru, restricted to the northern coast of the department of Arequipa. The lack of knowledge of this species, and threats such as human activities and climate change, put the populations at risk. In this research, we examined the geographical distribution and conservation status of E. ritteri in the coastal area of the Caravelí province. In addition, the population structure and phenology in the Quebrada Vizcachani population were evaluated using plots of 10x100 m. Data on the accompanying flora and local fauna were also obtained. Eulychnia ritteri showed five populations distributed from 15°43’ to 15°47’S, with a total area of 63.62 ha (0.63 km2). The Quebrada Vizcachani population is the largest (24.5 ha) and the Cementerio population the smallest (0.018 ha). The population density evaluated is 0.06 ind/m2, where seedlings, juveniles, adults, and dead plants were 3.61, 24.09, 56.63 and 15.67% respectively. The phenology was asynchronous, the flower buds, flowers and fruits appear in the same period. The flowers and fruits were food for insects and rodents respectively, and 18 accompanying species have been recorded. Finally, E. ritteri is categorised as endangered (EN), given its geographical distribution and identified threats.

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Genetic diversity may help evolutionary rescue in a clonal endemic plant species of Western Himalaya

Scientific Reports ◽

10.1038/s41598-021-98648-8 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Irshad Ahmad Sofi ◽

Irfan Rashid ◽

Javaid Yousuf Lone ◽

Sandhya Tyagi ◽

Zafar A. Reshi ◽

...

Keyword(s):

Climate Change ◽

Genetic Diversity ◽

Population Structure ◽

Plant Species ◽

Ssr Markers ◽

Sequence Data ◽

Endemic Plant ◽

Single Marker Analysis ◽

Endemic Plant Species ◽

Trait Associations

AbstractHabitat loss due to climate change may cause the extinction of the clonal species with a limited distribution range. Thus, determining the genetic diversity required for adaptability by these species in sensitive ecosystems can help infer the chances of their survival and spread in changing climate. We studied the genetic diversity and population structure of Sambucus wightiana—a clonal endemic plant species of the Himalayan region for understanding its possible survival chances in anticipated climate change. Eight polymorphic microsatellite markers were used to study the allelic/genetic diversity and population structure. In addition, ITS1–ITS4 Sanger sequencing was used for phylogeny and SNP detection. A total number of 73 alleles were scored for 37 genotypes at 17 loci for 8 SSRs markers. The population structural analysis using the SSR marker data led to identifying two sub-populations in our collection of 37 S. wightiana genotypes, with 11 genotypes having mixed ancestry. The ITS sequence data show a specific allele in higher frequency in a particular sub-population, indicating variation in different S. wightiana accessions at the sequence level. The genotypic data of SSR markers and trait data of 11 traits of S. wightiana, when analyzed together, revealed five significant Marker-Trait Associations (MTAs) through Single Marker Analysis (SMA) or regression analysis. Most of the SSR markers were found to be associated with more than one trait, indicating the usefulness of these markers for working out marker-trait associations. Moderate to high genetic diversity observed in the present study may provide insurance against climate change to S. wightiana and help its further spread.

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Population Structure of Rhododendron Campanulatum D. Don and Associated Tree Species along the Elevational Gradient of Manaslu Conservation Area, Nepal

Journal of Institute of Science and Technology ◽

10.3126/jist.v21i1.16058 ◽

2016 ◽

Vol 21 (1) ◽

pp. 95-102

Author(s):

Prabina Rana ◽

Madan Koirala ◽

Dinesh Raj Bhuju ◽

Chuenchit Boonchird

Keyword(s):

Climate Change ◽

Population Structure ◽

Altitudinal Gradient ◽

Elevational Gradient ◽

Climatic Conditions ◽

Importance Value Index ◽

Importance Value ◽

Conservation Area ◽

The Impact ◽

Rhododendron Campanulatum

Climate change is affecting the forest ecosystems worldwide. Impacts of climate change are more perceptible at higher altitudes and can be easily detected along the elevational gradient. The main aim is to study the impact of elevation on the population structure of Rhododendron campanulatum D. Don and associated trees species at Manaslu Conservation Area, central Nepal. A total of 30 quadrats were sampled from 3600-4100 meter above sea level (m asl.) at altitudinal difference of 100 m with 5 quadrates in each altitude. The present study showed that R. campanulatum, Betula utilis, Abies spectabilis and Sorbus microphylla are the treeline species. R. campanulatum was the most dominant species with highest importance value index (IVI) along the altitudinal gradient. At 4000 m asl. S. microphylla was the codominant species. B. utilis was the codominant species at 3600 -3900 m asl followed by S. microphylla and A. spectabilis. R. campanulatum and A. spectabilis showed a sustainable regeneration. No seedling of B. utilis was found along the altitudinal gradient indicating that the regeneration of this species might be affected by unfavourable micohabitat (eg. deep shade). R. campanulatum and S. microphylla were found above the treeline indicating that the climatic conditions were favourable for their growth. The height, diameter and density of the species differed along the elevational gradient and showed a species specific trend. Journal of Institute of Science and TechnologyVol. 21, No. 1, 2016, page:

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Habitat variation influences movement rates and population structure of an intertidal fish

Oecologia ◽

10.1007/s00442-008-1086-y ◽

2008 ◽

Vol 157 (3) ◽

pp. 429-439 ◽

Cited By ~ 9

Author(s):

Amy F. Ritter

Keyword(s):

Population Structure ◽

Movement Rates ◽

Habitat Variation ◽

Intertidal Fish

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A footprint of past climate change on the diversity and population structure of Miscanthus sinensis

Annals of Botany ◽

10.1093/aob/mcu084 ◽

2014 ◽

Vol 114 (1) ◽

pp. 97-107 ◽

Cited By ~ 62

Author(s):

Lindsay V. Clark ◽

Joe E. Brummer ◽

Katarzyna Głowacka ◽

Megan C. Hall ◽

Kweon Heo ◽

...

Keyword(s):

Climate Change ◽

Population Structure ◽

Miscanthus Sinensis ◽

Past Climate ◽

Past Climate Change

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POPULATION STRUCTURE ALONG A STEEP ENVIRONMENTAL GRADIENT: CONSEQUENCES OF FLOWERING TIME AND HABITAT VARIATION IN THE SNOW BUTTERCUP,RANUNCULUS ADONEUS

Evolution ◽

10.1111/j.1558-5646.1997.tb02390.x ◽

1997 ◽

Vol 51 (1) ◽

pp. 79-94 ◽

Cited By ~ 52

Author(s):

M. L. Stanton ◽

C. Galen ◽

J. Shore

Keyword(s):

Population Structure ◽

Flowering Time ◽

Environmental Gradient ◽

Habitat Variation ◽

Ranunculus Adoneus

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Genomic signatures in the coral holobiont reveal host adaptations driven by Holocene climate change and reef specific symbionts

Science Advances ◽

10.1126/sciadv.abc6318 ◽

2020 ◽

Vol 6 (48) ◽

pp. eabc6318

Author(s):

Ira Cooke ◽

Hua Ying ◽

Sylvain Forêt ◽

Pim Bongaerts ◽

Jan M. Strugnell ◽

...

Keyword(s):

Climate Change ◽

Population Structure ◽

Skeletal Development ◽

Host Population ◽

Genomic Signatures ◽

Long Reads ◽

Adaptive Processes ◽

Acropora Tenuis ◽

Whole Genome Resequencing ◽

Genetic Signatures

Genetic signatures caused by demographic and adaptive processes during past climatic shifts can inform predictions of species’ responses to anthropogenic climate change. To identify these signatures in Acropora tenuis, a reef-building coral threatened by global warming, we first assembled the genome from long reads and then used shallow whole-genome resequencing of 150 colonies from the central inshore Great Barrier Reef to inform population genomic analyses. We identify population structure in the host that reflects a Pleistocene split, whereas photosymbiont differences between reefs most likely reflect contemporary (Holocene) conditions. Signatures of selection in the host were associated with genes linked to diverse processes including osmotic regulation, skeletal development, and the establishment and maintenance of symbiosis. Our results suggest that adaptation to post-glacial climate change in A. tenuis has involved selection on many genes, while differences in symbiont specificity between reefs appear to be unrelated to host population structure.

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