D. M. Bartley scite author profile

At present, inland fisheries are not often a national or regional governance priority and as a result, inland capture fisheries are undervalued and largely overlooked. As such they are threatened in both developing and developed countries. Indeed, due to lack of reliable data, inland fisheries have never been part of any high profile global fisheries assessment and are notably absent from the Sustainable Development Goals. The general public and policy makers are largely ignorant of the plight of freshwater ecosystems and the fish they support, as well as the ecosystem services generated by inland fisheries. This ignorance is particularly salient given that the current emphasis on the food-water-energy nexus often fails to include the important role that inland fish and fisheries play in food security and supporting livelihoods in low-income food deficit countries. Developing countries in Africa and Asia produce about 11 million tonnes of inland fish annually, 90 % of the global total. The role of inland fisheries goes beyond just kilocalories; fish provide important micronutrients and essentially fatty acids. In some regions, inland recreational fisheries are important, generating much wealth and supporting livelihoods. The following three key recommendations are necessary for action if inland fisheries are to become a part of the foodwater-energy discussion: invest in improved valuation and assessment methods, build better methods to effectively govern inland fisheries (requires capacity building and incentives), and develop approaches to managing waters across sectors and scales. Moreover, if inland fisheries are recognized as important to food security, livelihoods, and human well-being, they can be more easily incorporated in regional, national, and global policies and agreements on water issues. Through these approaches, inland fisheries can be better evaluated and be more fully recognized in broader water resource and aquatic ecosystem planning and decision-making frameworks, enhancing their value and sustainability for the future.

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Use of Linkage Disequilibrium Data to Estimate Effective Size of Hatchery and Natural Fish Populations

Bartley

Bagley

Gall

et al. 1992

Conservation Biology

161

149

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A primary parameter in the assessment of the viability of a population is its effective population size (Ne). Allozyme analysis of four groups of fishes provided data on linkage disequilibrium, which were then used to estimate Ne. The groups included hatchery samples of juvenile white seabass, Atractoscion nobilis, juvenile rainbow trout, Oncorhynchus mykiss, from the Shasta Hatchery, and juvenile chinook salmon, O. tshawytscha, from the Coleman National Fish Hatchery. The fourth sample consisted of juvenile chinook salmon from the threatened winter run in the upper Sacramento River. The groups of fish were chosen to represent different applications of the methodology to conservation of fishes. For a variety of reasons. Ne may be considerably lower than census counts of fish present in the parental populations. The Ne of the hatchery broodstock that produced the sample of juvenile white seabass was estimated to be approximately 10, although 25 adult white seabass were present in a mass spawning tank. Ne estimates for the parental populations of the Shasta and Coleman Hatchery samples were 35.8 and 132.5, respectively. The actual number of fish spawned at the Shasta Hatchery was approximately 40, whereas nearly 10,000 salmon were spawned at the Coleman Hatchery. The threatened winter run of chinook salmon had an estimated Ne of 85.5 and an approximate run size of 2000 salmon. The method of estimating effective population size from linkage disequilibrium data appears to result in realistic estimates of effective population size when adequate sample size and a sufficient number of polymorphic loci are available.

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Ecosystem approach to inland fisheries: research needs and implementation strategies

et al. 2011

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Inland fisheries are a vital component in the livelihoods and food security of people throughout the world, as well as contributing huge recreational and economic benefits. These valuable assets are jeopardized by lack of research-based understanding of the impacts of fisheries on inland ecosystems, and similarly the impact of human activities associated with inland waters on fisheries and aquatic biodiversity. To explore this topic, an international workshop was organized in order to examine strategies to incorporate fisheries into ecosystem approaches for management of inland waters. To achieve this goal, a new research agenda is needed that focuses on: quantifying the ecosystem services provided by fresh waters; quantifying the economic, social and nutritional benefits of inland fisheries; improving assessments designed to evaluate fisheries exploitation potential; and examining feedbacks between fisheries, ecosystem productivity and aquatic biodiversity. Accomplishing these objectives will require merging natural and social science approaches to address coupled social-ecological system dynamics.

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Restocking and stock enhancement of coastal fisheries: Potential, problems and progress

et al. 2006

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Inland capture fisheries: status and data issues

Bartley

Graaf

Valbo‐Jørgensen

et al. 2015

Fisheries Management Eco

107

103

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Lakes, reservoirs and wetlands cover a total area of about 7.8 million km2 and provide a rich environment for inland capture fisheries. Production from the world's inland capture fisheries has grown steadily to over 11.6 million tonnes in 2012, with almost 95% of the catches from developing countries. The sector is composed primarily of small‐scale fishers and provides employment to approximately 61 million people, of which 50% are women. Inland capture fisheries yield is only 6.3% of the global reported fish production (capture fisheries and aquaculture). However, it is proposed that this is an underestimate and actual yield may be several times greater. The apparent low proportion of fish provided by inland capture fisheries globally does not reflect adequately the importance of inland capture fisheries in today's society. A lack of accurate information renders analysis of existing data sets difficult and makes decision‐making problematic. Is the sector in serious trouble because of the multiple uses of and threats to inland water ecosystems? Is the sector stable and increased production due only to better reporting? Or, is the sector growing?

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D. M. Bartley

On the sustainability of inland fisheries: Finding a future for the forgotten

Use of Linkage Disequilibrium Data to Estimate Effective Size of Hatchery and Natural Fish Populations

Ecosystem approach to inland fisheries: research needs and implementation strategies

Restocking and stock enhancement of coastal fisheries: Potential, problems and progress

Inland capture fisheries: status and data issues

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