Your search keyword '"Chheng Phen"' showing total 5 results

1. Evidence for population genetic structure in two exploited Mekong River fishes across a natural riverine barrier.

Author

Biesack, Ellen E., Dang, Binh T., Ackiss, Amanda S., Bird, Christopher E., Chheng, Phen, Phounvisouk, Latsamy, Truong, Oanh T., and Carpenter, Kent E.

Subjects

FISH migration, FISH populations, SINGLE nucleotide polymorphisms, CARP, MIGRATORY animals, MIGRATORY fishes, GENE flow, FISHES

Abstract

Impacts of urban development on aquatic populations are often complex and difficult to ascertain, but population genetic analysis has allowed researchers to monitor and estimate gene flow in the context of existing and future hydroelectric projects. The Lower Mekong Basin is undergoing rapid hydroelectric development with around 50 completed and under‐construction dams and 95 planned dams. The authors investigated the baseline genetic diversity of two exploited migratory fishes, the mud carp Henicorhynchus lobatus (five locations), and the rat‐faced pangasiid catfish, Helicophagus leptorhynchus (two locations), in the Lower Mekong Basin using the genomic double digest restriction site‐associated DNA (ddRAD) sequencing method. In both species, fish sampled upstream of Khone Falls were differentiated from those collected at other sites, and Ne estimates at the site above the falls were lower than those at other sites. This was the first study to utilize thousands of RAD‐generated single nucleotide polymorphisms to indicate that the Mekong's Khone Falls are a potential barrier to gene flow for these two moderately migratory species. The recent completion of the Don Sahong dam across one of the only channels for migratory fishes through Khone Falls may further exacerbate signatures of isolation and continue to disrupt the migration patterns of regionally vital food fishes. In addition, H. lobatus populations downstream of Khone Falls, including the 3S Basin and Tonle Sap system, displayed robust connectivity. Potential obstruction of migration pathways between these river systems resulting from future dam construction may limit dispersal, which has led to elevated inbreeding rates and even local extirpation in other fragmented riverine species. [ABSTRACT FROM AUTHOR]

Published

2020

2. Cryptic Lineages and a Population Dammed to Incipient Extinction? Insights into the Genetic Structure of a Mekong River Catfish.

Author

Ackiss, Amanda S, Dang, Binh T, Bird, Christopher E, Biesack, Ellen E, Chheng, Phen, Phounvisouk, Latsamy, Vu, Quyen H D, Uy, Sophorn, and Carpenter, Kent E

Subjects

GEOLOGIC hot spots, GENETIC drift, MULTIPLE correspondence analysis (Statistics), FRAGMENTED landscapes, WATERSHEDS, CATFISHES, RESERVOIR sedimentation, GERMPLASM

Abstract

An understanding of the genetic composition of populations across management boundaries is vital to developing successful strategies for sustaining biodiversity and food resources. This is especially important in ecosystems where habitat fragmentation has altered baseline patterns of gene flow, dividing natural populations into smaller subpopulations and increasing potential loss of genetic variation through genetic drift. River systems can be highly fragmented by dams built for flow regulation and hydropower. We used reduced-representation sequencing to examine genomic patterns in an exploited catfish, Hemibagrus spilopterus , in a hotspot of biodiversity and hydropower development—the Mekong River basin. Our results revealed the presence of 2 highly divergent coexisting genetic lineages which may be cryptic species. Within the lineage with the greatest sample sizes, pairwise F ST values, principal component analysis, and a STRUCTURE analysis all suggest that long-distance migration is not common across the Lower Mekong Basin, even in areas where flood-pulse hydrology has limited genetic divergence. In tributaries, effective population size estimates were at least an order of magnitude lower than in the Mekong mainstream indicating these populations may be more vulnerable to perturbations such as human-induced fragmentation. Fish isolated upstream of several dams in one tributary exhibited particularly low genetic diversity, high amounts of relatedness, and a level of inbreeding (G IS = 0.51) that has been associated with inbreeding depression in other outcrossing species. Our results highlight the importance of assessing genetic structure and diversity in riverine fisheries populations across proposed dam development sites for the preservation of these critically important resources. [ABSTRACT FROM AUTHOR]

Published

2019

3. Monitoring of tropical freshwater fish resources for sustainable use.

Author

Elliott, Vittoria L., Chheng, Phen, Uy, Sophorn, and Holtgrieve, Gordon W.

Subjects

FRESHWATER fishes, FISHERIES, FISH quality, DATA quality

Abstract

Tropical freshwater ecosystems are some of the world's most biodiverse and productive systems where determining what sustainable exploitation of inland fisheries looks like is particularly challenging. One of the greatest obstacles to sustainable management is collecting and using quality data on fish production and yield. The biodiversity and hydro‐ecology of these systems often under open‐access governance, add to the complexity of managing them. This paper describes an integrated citizen‐science, earth observation, environmental DNA and independent survey approach to collecting fish and fisheries data, using the Cambodian Mekong as a case study. [ABSTRACT FROM AUTHOR]

Published

2019

4. ALTERNATIVE FEEDING STRATEGIES AND FEED INGREDIENTS FOR SNAKEHEAD FARMING IN CAMBODIA AND VIETNAM.

Author

TRAN THI THANH HIEN, PHAM MINH DUC, NEN PHANNA, CHHENG PHEN, SO NAM, POMEROY, ROBERT, and BENGTSON, DAVID A.

Subjects

AQUACULTURE, FISH feeds, ANIMAL nutrition, SNAKEHEADS (Fish), UNIVERSITIES & colleges, ECONOMICS

Abstract

The article offers information regarding the condition of snakehead farming in Cambodia and Vietnam as of 2018. Topics include the banning of the culture in Cambodia in 2004 due to its impact on Cambodians' nutrition and other fisheries, the development of weaning protocols by scientists from the Can Tho University (CTU) in Vietnam for snakehead culture, and the removal of the ban for the culture in Cambodia in 2016 due to the AquaFish project.

Published

2018

5. Cambodian Freshwater Fish Assemblage Structure and Distribution Patterns: Using a Large-Scale Monitoring Network to Understand the Dynamics and Management Implications of Species Clusters in a Global Biodiversity Hotspot.

Author

Pin, Kakada, Nut, Savat, Hogan, Zeb S., Chandra, Sudeep, Saray, Samadee, Touch, Bunthang, Chheng, Phen, and Ngor, Peng Bun

Subjects

FRESHWATER fishes, FISH populations, BODIES of water, SPECIES, FISH diversity, FRESHWATER biodiversity, BIODIVERSITY, WATERSHEDS

Abstract

Mekong River Basin is one of the world's fish biodiversity hotspots. Fisheries of the Cambodian Mekong are characterized by high diversity and productivity. However, few studies have focused on broad scale patterns and fish assemblage structure of this important system at a national level. Here, we describe spatial and seasonal variation in fish assemblages by analyzing one year of daily fish catch data sampled at 32 sites covering Cambodia's main inland water bodies. We recorded 125 fish species. Four clusters were distinguished based on assemblage composition similarity, and 95 indicator species were identified to characterize each of the identified assemblage clusters. High diversity fish assemblages were associated with the upper Mekong system and Mekong/Bassac/Tonle Sap Rivers in Kandal Province and southern Tonle Sap Lake while lower diversity assemblages were observed in the Mekong River in Kratie and the northern area of the Tonle Sap Lake. We find significant variation in the assemblage composition between wet and dry seasons, indicating strong seasonal species turnover within clusters. Length–weight relationship analysis indicated a negative allometric growth among a majority of indicator species, reflecting suboptimal conditions for growth. Our study establishes contemporary structure and diversity patterns in the Lower Mekong River system of Cambodia, which can be used to map fish biodiversity hotspots and assess key indicative fish stocks' statuses for conservation and management. [ABSTRACT FROM AUTHOR]

Published

2020