Gephart, J. A. et al. The environmental value of subsistence: optimizing diets to attenuate footprints. Sci. General Environ. 553, 120–127 (2016).
Hallström, E. et al. Mixed local weather and dietary efficiency of seafoods. J. Blank. Prod. 230, 402–411 (2019).
Poore, J. & Nemecek, T. Lowering meals’s environmental affects thru manufacturers and buyers. Science 360, 987–992 (2018).
Halpern, B. S. et al. Opinion: Placing all meals at the identical desk: attaining sustainable meals programs calls for complete accounting. Proc. Natl Acad. Sci. USA 116, 18152–18156 (2019).
The State of Global Fisheries and Aquaculture (SOFIA) (FAO, 2020).
The State of the Global’s Land and Water Sources for Meals and Agriculture (SOLAW): Managing Techniques at Chance (FAO, 2011).
Meals Safety and Vitamin: Construction a International Narrative Against 2030 (HLPE, 2020).
Willett, W. et al. Meals within the Anthropocene: the EAT–Lancet Fee on wholesome diets from sustainable meals programs. Lancet 393, 447–492 (2019).
Micha, R. et al. 2020 International Vitamin File: Motion on Fairness to Finish Malnutrition (International Vitamin File, 2020).
Golden, C. D. Aquatic meals to nourish international locations. Nature (within the press).
Parker, R. W. R. et al. Gasoline use and greenhouse fuel emissions of global fisheries. Nat. Clim. Trade 8, 333–337 (2018).
Hoegh-Guldberg, O. et al. The Ocean as a Way to Local weather Trade: 5 Alternatives for Motion (Ocean Panel, 2019).
Farmery, A. Okay., Gardner, C., Jennings, S., Inexperienced, B. S. & Watson, R. A. Assessing the inclusion of seafood within the sustainable vitamin literature. Fish Fish. 18, 607–618 (2017).
MacLeod, M. J., Hasan, M. R., Robb, D. H. F. & Mamun-Ur-Rashid, M. Quantifying greenhouse fuel emissions from international aquaculture. Sci. Rep. 10, 11679 (2020).
Hilborn, R., Banobi, J., Corridor, S. J., Pucylowski, T. & Walsworth, T. E. The environmental value of animal supply meals. Entrance. Ecol. Environ. 16, 329–335 (2018).
Gephart, J. A. et al. The ‘seafood hole’ within the food-water nexus literature—problems surrounding freshwater use in seafood manufacturing chains. Adv. Water Resour. 110, 505–514 (2017).
Tilman, D. & Clark, M. International diets hyperlink environmental sustainability and human well being. Nature 515, 518–522 (2014).
Springmann, M. et al. Choices for retaining the meals gadget inside environmental limits. Nature 562, 519–525 (2018).
Reap, J., Roman, F., Duncan, S. & Bras, B. A survey of unresolved issues in existence cycle review: Section 2: have an effect on review and interpretation. Int. J. Existence Cycle Assess. 13, 374–388 (2008).
Henriksson, P. J. G. et al. A fast overview of meta-analyses and systematic critiques of environmental footprints of meals commodities and diets. Glob. Meals Secur. 28, 100508 (2021).
Naylor, R. L. et al. Blue meals call for throughout geographic and temporal scales. Nature (within the press).
Henriksson, P. J. G., Pelletier, N. L., Troell, M. & Tyedmers, P. Existence cycle review and its software to aquaculture manufacturing programs. In Encyclopedia of Sustainability Science and Era (ed. Meyers, R.) (Springer, 2012).
Richards, D. R., Thompson, B. S. & Wijedasa, L. Quantifying web lack of international mangrove carbon shares from two decades of land quilt alternate. Nat. Commun. 11, 4260 (2020).
Gephart, J. A., Tempo, M. L. & D’Odorico, P. Freshwater financial savings from marine protein intake. Environ. Res. Lett. 9, 014005 (2014).
van Oirschot, R. et al. Explorative environmental existence cycle review for gadget design of seaweed cultivation and drying. Algal Res. 27, 43–54 (2017).
Ray, N. E., O’Meara, T., Wiliamson, T., Izursa, J.-L. & Kangas, P. C. Attention of carbon dioxide liberate all the way through shell manufacturing in LCA of bivalves. Int. J. Existence Cycle Assess. 23, 1042–1048 (2018).
Iribarren, D., Moreira, M. T. & Feijoo, G. Revisiting the existence cycle review of mussels from a sectorial point of view. J. Blank. Prod. 18, 101–111 (2010).
Tegtmeier, S. et al. Emission and shipping of bromocarbons: from the West Pacific ocean into the stratosphere. Atmospheric Chem. Phys. 12, 10633–10648 (2012).
King, G. M. Facets of carbon monoxide manufacturing and oxidation by way of marine macroalgae. Mar. Ecol. Prog. Ser. 224, 69–75 (2001).
Flores, S. R. L., Dobbs, J. & Dunn, M. A. Mineral nutrient content material and iron bioavailability in commonplace and Hawaiian seaweeds assessed by way of an in vitro digestion/Caco-2 cellular fashion. J. Meals Compos. Anal. 43, 185–193 (2015).
Parker, R. W. R. & Tyedmers, P. H. Gasoline intake of worldwide fishing fleets: present knowing and data gaps. Fish Fish. 16, 684–696 (2015).
Molnar, J. L., Gamboa, R. L., Revenga, C. & Spalding, M. D. Assessing the worldwide danger of invasive species to marine biodiversity. Entrance. Ecol. Environ. 6, 485–492 (2008).
Henriksson, P. J. G. et al. Unpacking components influencing antimicrobial use in international aquaculture and their implication for control: a overview from a programs point of view. Maintain. Sci. 13, 1105–1120 (2018).
Murray, A. G. Epidemiology of the unfold of viral illnesses beneath aquaculture. Curr. Opin. Virol. 3, 74–78 (2013).
Myers, R. A. & Malicious program, B. Fast international depletion of predatory fish communities. Nature 423, 280–283 (2003).
Svedäng, H. & Hornborg, S. Selective fishing induces density-dependent expansion. Nat. Commun. 5, 4152 (2014).
Howarth, L. M., Roberts, C. M., Thurstan, R. H. & Stewart, B. D. The unintentional penalties of simplifying the ocean: making the case for complexity. Fish Fish. 15, 690–711 (2014).
Roda, M. A. P. et al. A 3rd Evaluation of International Marine Fisheries Discards (FAO, 2019).
Halpern, B. S., Selkoe, Okay. A., Micheli, F. & Kappel, C. V. Comparing and rating the vulnerability of worldwide marine ecosystems to anthropogenic threats. Conserv. Biol. 21, 1301–1315 (2007).
Weitzman, J. & Filgueira, R. The evolution and alertness of wearing capability in aquaculture: in opposition to a analysis time table. Rev. Aquac. 12, 1297–1322 (2019).
Martin, D. A. et al. Land-use historical past determines ecosystem services and products and conservation worth in tropical agroforestry. Conserv. Lett. 13, e12740 (2020).
Williams, D. R. et al. Proactive conservation to forestall habitat losses to agricultural growth. Nat. Maintain. 4, 314–322 (2021).
Mcleod, E. et al. A blueprint for blue carbon: towards an stepped forward knowing of the function of vegetated coastal habitats in sequestering CO 2. Entrance. Ecol. Environ. 9, 552–560 (2011).
Selkoe, Okay. A. et al. Rules for managing marine ecosystems susceptible to tipping issues. Ecosyst. Well being Maintain. 1, 1–18 (2015).
Crain, C. M., Kroeker, Okay. & Halpern, B. S. Interactive and cumulative results of more than one human stressors in marine programs. Ecol. Lett. 11, 1304–1315 (2008).
Guo, F., Lenoir, J. & Bonebrake, T. C. Land-use alternate interacts with local weather to resolve elevational species redistribution. Nat. Commun. 9, 1315 (2018).
Costello, C., Cao, L. & Gelcich, S. The Long term of Meals from the Sea (Ocean Panel, 2019).
Bohnes, F. A., Hauschild, M. Z., Schlundt, J. & Laurent, A. Existence cycle checks of aquaculture programs: a vital overview of reported findings with suggestions for coverage and gadget building. Rev. Aquac. 11, 1061–1079 (2019).
Bergman, Okay. et al. Recirculating aquaculture is conceivable with out main power tradeoff: existence cycle review of warmwater fish farming in Sweden. Environ. Sci. Technol. 54, 16062–16070 (2020).
Stevens, J. R., Newton, R. W., Tlusty, M. & Little, D. C. The upward push of aquaculture by-products: expanding meals manufacturing, worth, and sustainability thru strategic utilisation. Mar. Coverage 90, 115–124 (2018).
Cottrell, R. S., Blanchard, J. L., Halpern, B. S., Metian, M. & Froehlich, H. E. International adoption of novel aquaculture feeds may just considerably scale back forage fish call for by way of 2030. Nat. Meals 1, 301–308 (2020).
Pelletier, N., Klinger, D. H., Sims, N. A., Yoshioka, J.-R. & Kittinger, J. N. Dietary attributes, substitutability, scalability, and environmental depth of an illustrative subset of present and long run protein assets for aquaculture feeds: joint attention of possible synergies and trade-offs. Environ. Sci. Technol. 52, 5532–5544 (2018).
Hornborg, S. & Smith, A. D. M. Fisheries for the long run: greenhouse fuel emission penalties of various fishery reference issues. ICES J. Mar. Sci. 77, 1666–1671 (2020).
The Sunken Billions Revisited: Growth and Demanding situations in International Marine Fisheries. (Global Financial institution, 2017).
Figuring out seafood buyers. MSC https://www.msc.org/understanding-seafood-consumers (2021).
Moberg, E. et al. Mixed inventions in public coverage, the non-public sector and tradition can power sustainability transitions in meals programs. Nat. Meals 2, 282–290 (2021).
Fairbanks, L. Shifting mussels offshore? Perceptions of offshore aquaculture coverage and growth in New England. Ocean Coast. Manag. 130, 1–12 (2016).
Säll, S. & Gren, I.-M. Results of an environmental tax on meat and dairy intake in Sweden. Meals Pol. 55, 41–53 (2015).
Fischer, C. G. & Garnett, T. Plates, Pyramids, Planet: Traits in Nationwide Wholesome and Sustainable Nutritional Tips: A State of Play Evaluation (FAO, 2016).
Jones, S., Bruno, D., Madsen, L. & Peeler, E. Illness control mitigates chance of pathogen transmission from maricultured salmonids. Aquac. Environ. Engage. 6, 119–134 (2015).
Antonucci, F. & Costa, C. Precision aquaculture: a brief overview on engineering inventions. Aquac. Int. 28, 41–57 (2020).
Österblom, H., Jouffray, J.-B., Folke, C. & Rockström, J. Emergence of a world science–trade initiative for ocean stewardship. Proc. Natl Acad. Sci. USA 114, 9038–9043 (2017).
Watson, J. R., Armerin, F., Klinger, D. H. & Belton, B. Resilience thru chance control: cooperative insurance coverage in small-holder aquaculture programs. Heliyon 4, e00799 (2018).
Hasan, M. R. On-farm Feeding and Feed Control in Aquaculture (FAO, 2010).
Bondad-Reantaso, M. G. Evaluation of Freshwater Fish Seed Sources for Sustainable Aquaculture (FAO, 2007).
Gutiérrez, N. L. et al. Eco-label conveys dependable knowledge on fish inventory well being to seafood buyers. PLoS ONE 7, e43765 (2012).
Bush, S. R. et al. Inclusive environmental efficiency thru ‘beyond-farm’ aquaculture governance. Curr. Opin. Environ. Maintain. 41, 49–55 (2019).
Jouffray, J.-B., Crona, B., Wassénius, E., Bebbington, J. & Scholtens, B. Leverage issues within the monetary sector for seafood sustainability. Sci. Adv. 5, eaax3324 (2019).
Gephart, J. A. et al. Eventualities for international aquaculture and its function in human diet. Rev. Fish. Sci. Aquac. 29, 122–138 (2021).
Myers, H. J. & Moore, M. J. Lowering effort within the U.S. American lobster (Homarus americanus) fishery to forestall North Atlantic proper whale (Eubalaena glacialis) entanglements would possibly strengthen upper income and long-term sustainability. Mar. Coverage 118, 104017 (2020).