341 research outputs found
New England Cod Collapse and the Climate.
To improve fishery management, there is an increasing need to understand the long-term consequences of natural and anthropogenic climate variability for ecological systems. New England's iconic cod populations have been in decline for several decades and have recently reached unprecedented lows. We find that 17% of the overall decline in Gulf of Maine cod biomass since 1980 can be attributed to positive phases of the North Atlantic Oscillation (NAO). This is a consequence of three results: i) a 1-unit increase in the NAO winter index is associated with a 17% decrease in the spring biomass of age-1 cod the following year; ii) this NAO-driven decrease persists as the affected cohort matures; iii) fishing practices appear to exacerbate NAO's direct biological effect such that, since 1913, a 1-unit increase in the NAO index lowers subsequent cod catch for up to 19 years. The Georges Bank cod stock displays similar patterns. Because we statistically detect a delay between the NAO and subsequent declines in adult biomass, our findings imply that observed current NAO conditions can be used in stock forecasts, providing lead time for adaptive policy. More broadly, our approach can inform forecasting efforts for other fish populations strongly affected by natural and anthropogenic climatic variation
The Economic Value of Rebuilding Fisheries
The global demand for protein from seafood –- whether wild, caught or cultured, whether for direct consumption or as feed for livestock –- is high and projected to continue growing. However, the ocean's ability to meet this demand is uncertain due to either mismanagement or, in some cases, lack of management of marine fish stocks. Efforts to rebuild and recover the world's fisheries will benefit from an improved understanding of the long-term economic benefits of recovering collapsed stocks, the trajectory and duration of different rebuilding approaches, variation in the value and timing of recovery for fisheries with different economic, biological, and regulatory characteristics, including identifying which fisheries are likely to benefit most from recovery, and the benefits of avoiding collapse in the first place. These questions are addressed in this paper using a dynamic bioeconomic optimisation model that explicitly accounts for economics, management, and ecology of size-structured exploited fish populations. Within this model framework, different management options (effort controls on small-, medium-, and large-sized fish) including management that optimises economic returns over a specified planning horizon are simulated and the consequences compared. The results show considerable economic gains from rebuilding fisheries, with magnitudes varying across fisheries
Unexpected Management Choices When Accounting for Uncertainty in Ecosystem Service Tradeoff Analyses
Resource management and conservation increasingly focus on ecosystem service provisioning and potential tradeoffs among services under different management actions. Application of bioeconomic approaches to tradeoffs assessment is touted as a way to find win-win outcomes or avoid unnecessary stakeholder conflict. Yet, nearly all assessments to date have ignored inherent uncertainties in the provision and valuation of services. We incorporate uncertainty into the ecosystem services analytical framework and show how such inclusion improves optimal decision making. In particular, we show: (1) “suboptimal” solutions can become optimal when uncertainties are accounted for; (2) uncertainty paradoxically makes stakeholders value conservation despite their lack of preference for it; and (3) substantial losses or missed gains in ecosystem service provisioning can be incurred when uncertainty is ignored. Our results highlight the urgency of accounting for uncertainties in ecosystem services in tradeoff assessments given the widespread use of this approach by government agencies and conservation organizations
The Relationship Between Disperal Ability and Geographic Range Size
There are a variety of proposed evolutionary and ecological explanations for why some species have more extensive geographical ranges than others. One of the most common explanations is variation in species’ dispersal ability. However, the purported relationship between dispersal distance and range size has been subjected to few theoretical investigations, and empirical tests reach conflicting conclusions. We attempt to reconcile the equivocal results of previous studies by reviewing and synthesizing quantitative dispersal data, examining the relationship between average dispersal ability and range size for different spatial scales, regions and taxonomic groups. We use extensive data from marine taxa whose average dispersal varies by seven orders of magnitude. Our results suggest dispersal is not a general determinant of range size, but can play an important role in some circumstances. We also review the mechanistic theories proposed to explain a positive relationship between range size and dispersal and explore their underlying rationales and supporting or refuting evidence. Despite numerous studies assuming a priori that dispersal influences range size, this is the first comprehensive conceptual evaluation of these ideas. Overall, our results indicate that although dispersal can be an important process moderating species’ distributions, increased attention should be paid to other processes responsible for range size variation
Leveraging satellite technology to create true shark sanctuaries
Shark sanctuaries are an ambitious attempt to protect huge areas of ocean space to curtail overfishing of sharks. If shark sanctuaries are to succeed, effective surveillance and enforcement is urgently needed. We use a case study with a high level of illegal shark fishing within a shark sanctuary to help motivate three actionable opportunities to create truly effective shark sanctuaries by leveraging satellite technology: (1) require vessel tracking systems; (2) partner with international research organizations; and (3) ban vessels previously associated with illegal fishing from shark sanctuaries. Sustaining the level of fishing mortality observed in our case study would lead even a healthy shark population to collapse to <10% of its unfished state in fewer than five years. We outline implementations pathways and provide a roadmap to pair new and emerging satellite technologies with existing international agreements to offer new hope for shark conservation successes globally
Drivers of redistribution of fishing and non-fishing effort after the implementation of a marine protected area network
Marine spatial planning (MSP) is increasingly utilized to sustainably manage ocean uses. Marine protected areas (MPAs), a form of spatial management in which parts of the ocean are regulated to fishing, are now a common tool in MSP for conserving marine biodiversity and managing fisheries. However, the use of MPAs in MSP often neglects, or simplifies, the redistribution of fishing and non-fishing activities inside and outside of MPAs following their implementation. This redistribution of effort can have important implications for effective MSP. Using long-term (14 yr) aerial surveys of boats at the California Channel Islands, we examined the spatial redistribution of fishing and non-fishing activities and their drivers following MPA establishment. Our data represent 6 yr of information before the implementation of an MPA network and 8 yr after implementation. Different types of boats responded in different ways to the closures, ranging from behaviors by commercial dive boats that support the hypothesis of fishing-the-line, to behaviors by urchin, sport fishing, and recreational boats that support the theory of ideal free distribution. Additionally, we found that boats engaged in recreational activities targeted areas that are sheltered from large waves and located near their home ports, while boats engaged in fishing activities also avoided high wave areas but were not constrained by the distance to their home ports. We did not observe the expected pattern of effort concentration near MPA borders for some boat types; this can be explained by the habitat preference of certain activities (for some activities, the desired habitat attributes are not inside the MPAs), species’ biology (species such as urchins where the MPA benefit would likely come from larval export rather than adult spillover), or policy-infraction avoidance. The diversity of boat responses reveals variance from the usual simplified assumption that all extractive boats respond similarly to MPA establishment. Our work is the first empirical study to analyze the response of both commercial and recreational boats to closure. Our results will inform MSP in better accounting for effort redistribution by ocean users in response to the implementation of MPAs and other closures
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Larval Dispersal has Little Effect on Benefits from Spatially Explicit Property Rights
Territorial Use Rights in Fisheries (TURFs) are increasingly used as a tool to promote sustainable and profitable fisheries. Their success depends on shifting incentives to longer time horizons by securing the future benefits of fisheries reforms for TURF owners. One challenge to this security is the spillover of fish across the border of the TURF. If the size of the TURF is small relative to the scale of fish movement, most benefits of actions go to neighboring fishing areas, and the motivation for reforms by TURF owners is reduced or eliminated. Past studies of TURFs support this conclusion. These theoretical and empirical analyses, however, have focused on the effects of adult fish movement. However, in many TURF systems, larval dispersal greatly exceeds TURF size, yet they can still be quite successful. We propose that including the effect of the market conditions (fishermen discount rates and price premiums for size) and the targeted species' life history into TURF models could greatly increase our understanding of why existent TURF systems seem unaffected by high levels of larval spillover. In this paper we explore this hypothesis by building age-structured models to assess how fishermen behavior is likely to change when including these drivers into current models. Our results show that maximum economic gains can be achieved in systems with high levels of larval spillover if 1) access rights over the adults are clearly defined where fishing activities are performed and 2) there's a price premium for larger fish
Designing MPAs for food security in open-access fisheries
Food security remains a principal challenge in the developing tropics where communities rely heavily on marine-based protein. While some improvements in fisheries management have been made in these regions, a large fraction of coastal fisheries remain unmanaged, mismanaged, or use only crude input controls. These quasi-open-access conditions often lead to severe overfishing, depleted stocks, and compromised food security. A possible fishery management approach in these institution-poor settings is to implement fully protected marine protected areas (MPAs). Although the primary push for MPAs has been to solve the conservation problems that arise from mismanagement, MPAs can also benefit fisheries beyond their borders. The literature has not completely characterized how to design MPAs under diverse ecological and economic conditions when food security is the objective. We integrated four key biological and economic variables (i.e., fish population growth rate, fish mobility, fish price, and fishing cost) as well as an important aspect of reserve design (MPA size) into a general model and determined their combined influence on food security when MPAs are implemented in an open-access setting. We explicitly modeled open-access conditions that account for the behavioral response of fishers to the MPA; this approach is distinct from much of the literature that focuses on assumptions of “scorched earth” (i.e., severe over-fishing), optimized management, or an arbitrarily defined fishing mortality outside the MPA’s boundaries. We found that the MPA size that optimizes catch depends strongly on economic variables. Large MPAs optimize catch for species heavily harvested for their high value and/or low harvesting cost, while small MPAs or no closure are best for species lightly harvested for their low value and high harvesting cost. Contrary to previous theoretical expectations, both high and low mobility species are expected to experience conservation benefits from protection, although, as shown previously, greater conservation benefits are expected for low mobility species. Food security benefits from MPAs can be obtained from species of any mobility. Results deliver both qualitative insights and quantitative guidance for designing MPAs for food security in open-access fisheries
Nanoparticle-regulated phase behavior of ordered block copolymers
This document is the accepted manuscript version of a published article. Published by The Royal Society of Chemistry in the journal "Soft Matter" issue 8, DOI: 10.1039/b805540hAlthough block copolymer motifs have received considerable
attention as supramolecular templates for inorganic nanoparticles,
experimental observations of a nanostructured diblock copolymer
containing inorganic nanoparticles—supported by theoretical trends
predicted from a hybrid self-consistent field/density functional
theory—confirm that nanoparticle size and selectivity can likewise
stabilize the copolymer nanostructure by increasing its order–
disorder transition temperature.Research Council of Norway under the NANOMAT Program
Los Alamos National Laboratory || Contract No. DE-AC52-06NA25396
NSERC of Canada
GEM Fellowship and a NOBCChE Procter and Gamble Fellowship
Range contraction enables harvesting to extinction
Economic incentives to harvest a species usually diminish as its abundance
declines, because harvest costs increase. This prevents harvesting to
extinction. A known exception can occur if consumer demand causes a declining
species' harvest price to rise faster than costs. This threat may affect rare
and valuable species, such as large land mammals, sturgeons, and bluefin tunas.
We analyze a similar but underappreciated threat, which arises when the
geographic area (range) occupied by a species contracts as its abundance
declines. Range contractions maintain the local densities of declining
populations, which facilitates harvesting to extinction by preventing abundance
declines from causing harvest costs to rise. Factors causing such range
contractions include schooling, herding, or flocking behaviors--which,
ironically, can be predator-avoidance adaptations; patchy environments; habitat
loss; and climate change. We use a simple model to identify combinations of
range contractions and price increases capable of causing extinction from
profitable overharvesting, and we compare these to an empirical review. We find
that some aquatic species that school or forage in patchy environments
experience sufficiently severe range contractions as they decline to allow
profitable harvesting to extinction even with little or no price increase; and
some high-value declining aquatic species experience severe price increases.
For terrestrial species, the data needed to evaluate our theory are scarce, but
available evidence suggests that extinction-enabling range contractions may be
common among declining mammals and birds. Thus, factors causing range
contraction as abundance declines may pose unexpectedly large extinction risks
to harvested species.Comment: 25 pages total, 8 pages main text, 17 pages supporting informatio
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