Abstract
Sustainability is a common goal and catchphrase used in conjunction with seafood, but the metrics used to determine the level of sustainability are poorly defined. Although the conservation statuses of target or nontarget fish stocks associated with fisheries have been scrutinized, the relative climate impacts of different fisheries are often overlooked. Although an increasing body of research seeks to understand and mitigate the climate forcing associated with different fisheries, little effort has sought to integrate these disparate disciplines to examine the synergies and trade-offs between conservation efforts and efforts to reduce climate impacts. We quantified the climate forcing per unit of fish protein associated with several different U.S. tuna fishing fleets, among the most important capture fisheries by both volume and value. We found that skipjack tuna caught by purse seine, a gear type that is often associated with relatively high bycatch of nontarget species, results in lower climate forcing than all other sources of proteins examined with the exception of plants. Conversely, skipjack tuna caught by trolling, a gear type that is often associated with relatively low bycatch of nontarget species, generates higher climate forcing than most other protein sources with the exception of beef. Because there is a range of selectivity and climate forcing impacts associated with fishing gears, examining the trade-offs associated with bycatch and climate forcing provides an opportunity for broadening the discourse about the sustainability of seafood. A central goal of more sustainable seafood practices is to minimize environmental impacts, thus mitigation efforts—whether they target conservation, habitat preservation, or climate impacts—should consider the unintended consequences on fisheries conservation.
Highlights
Explosive growth in sustainable seafood is driven by consumer demand and policy (Del Giudice et al, 2018)
Fuel use intensity We found wide variation in the fuel use intensity (FUI) with respect to gear types and species (Table 3, Figure 3)
We found that the climate forcing of skipjack tuna protein caught by the American Samoa troll fleet was significantly greater than the U.S purse seine fleet
Summary
Explosive growth in sustainable seafood is driven by consumer demand and policy (Del Giudice et al, 2018). The conservation benefits of sustainable fishing practices are well studied (Beddington et al, 2007; Smith et al, 2010; Costello et al, 2016), the implications of such practices for climate change are not (Iles, 2007; Madin and Macreadie, 2015; Ziegler et al, 2016; Frazao Santos et al, 2020) This may partially be a reflection of the existing legal framework governing fisheries management. The breakdown between traditional metrics of seafood sustainability and the anthropogenic climate impacts of fishing on the planet has recently been recognized, (Madin and Macreadie, 2015; Ziegler et al, 2016; Frazao Santos et al, 2020), and there has been a call for more integrative, or nexus, approaches that consider synergies and trade-offs within and across sectors when considering sustainable development goals (Ziegler et al, 2016; Liu et al, 2018).
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