Your search keyword '"Peng Bun Ngor"' showing total 2 results

1. Are Genetic Reference Libraries Sufficient for Environmental DNA Metabarcoding of Mekong River Basin Fish?

Author

Teresa Campbell, Christopher L. Jerde, Nam So, Madeline N. Armstrong, Suzanne J. Kelson, Mary E. McElroy, Kakada Pin, Sudeep Chandra, Aaron A. Koning, Jessica R. Zehnpfennig, Jasmine N. Childress, Vanna Nuon, Zeb S. Hogan, Peng Bun Ngor, and Andrew R. Mahon

Subjects

0106 biological sciences, Geography, Planning and Development, Biodiversity, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Biochemistry, 03 medical and health sciences, IUCN Red List, Environmental DNA, species richness, TD201-500, 030304 developmental biology, Water Science and Technology, biodiversity, Data deficient, 0303 health sciences, Water supply for domestic and industrial purposes, Ecology, Hydraulic engineering, sequencing, Geography, Threatened species, Species richness, Genetic library, eDNA, TC1-978, Reference genome

Abstract

Environmental DNA (eDNA) metabarcoding approaches to surveillance have great potential for advancing biodiversity monitoring and fisheries management. For eDNA metabarcoding, having a genetic reference sequence identified to fish species is vital to reduce detection errors. Detection errors will increase when there is no reference sequence for a species or when the reference sequence is the same between different species at the same sequenced region of DNA. These errors will be acute in high biodiversity systems like the Mekong River Basin, where many fish species have no reference sequences and many congeners have the same or very similar sequences. Recently developed tools allow for inspection of reference database coverage and the sequence similarity between species. These evaluation tools provide a useful pre-deployment approach to evaluate the breadth of fish species richness potentially detectable using eDNA metabarcoding. Here we combined established species lists for the Mekong River Basin, resulting in a list of 1345 fish species, evaluated the genetic library coverage across 23 peer-reviewed primer pairs, and measured the species specificity for one primer pair across four genera to demonstrate that coverage of genetic reference libraries is but one consideration before deploying an eDNA metabarcoding surveillance program. This analysis identifies many of the eDNA metabarcoding knowledge gaps with the aim of improving the reliability of eDNA metabarcoding applications in the Mekong River Basin. Genetic reference libraries perform best for common and commercially valuable Mekong fishes, while sequence coverage does not exist for many regional endemics, IUCN data deficient, and threatened fishes.

Published

2021

2. Temporal Dynamics of Fish Assemblages as a Reflection of Policy Shift from Fishing Concession to Co-Management in One of the World’s Largest Tropical Flood Pulse Fisheries

Author

Zeb S. Hogan, Sébastien Brosse, Sovan Lek, Peng Bun Ngor, Nam So, and Bunyeth Chan

Subjects

co-management, 010504 meteorology & atmospheric sciences, Floodplain, Geography, Planning and Development, Fishing, community fisheries, Tonle Sap Lake, 010501 environmental sciences, Aquatic Science, Fish stock, private property regime, 01 natural sciences, Biochemistry, Commercial fishing, indiscriminate fishing, 0105 earth and related environmental sciences, Water Science and Technology, fisheries policy reform, overfishing, geography.geographical_feature_category, Overfishing, Flood myth, fishing lot abolishment, common property regime, Fishery, Geography, Habitat, Fisheries management

Abstract

Inland fisheries management in Cambodia has undergone two major policy reforms over the last two decades. These reforms led to the abolishment of a century-old commercial fishing lot system in 2012 and the establishment of new fish sanctuary and community fishing areas. However, the status of fisheries and fish assemblages following the reforms is not well understood. Here, we investigated the temporal changes in fish catch weight and fish assemblage structure for the period 1995&ndash, 2000 before fishing lot abolishment (BLA) and for the period 2012&ndash, 2015 after the removal of all fishing lots (after lot abolishment-ALA) using time-series fish catch data recorded from the Tonle Sap Lake (TSL), one of the world largest inland fisheries. We found (i) mean catch trends vary seasonally, with stable catch trends during the BLA and decreasing catch trends during the ALA and (ii) significant shifts in fish assemblage composition, notably a shift from large-bodied, migratory, and/or predatory species during the BLA toward more short-distance migratory and/or floodplain, small-bodied species during the ALA. Fishing lot abolishment coincided with substantial changes to floodplain habitats and increases in fishing pressure, threatening TSL fish stocks. Flow alterations caused by dams and climate change may exacerbate the problem. Therefore, to realize the fisheries reform objectives, it is imperative to strengthen the fisheries&rsquo, governance and management system, including effective law enforcement, institutional strengthening, improved planning, cooperation, and coordination as well as clearly defined roles and responsibilities among concerned stakeholders at all levels.

Published

2020