Fisheries management of the Arabian Peninsula region with special emphasis to the Sultanate of Oman: perspectives of climate change adaptations

Sachinandan Dutta , Mohammed Al Balushi , Fatma Al Harbi , Sourav Paul

Anthropocene Coasts ›› 2025, Vol. 8 ›› Issue (1) : 27

PDF
Anthropocene Coasts ›› 2025, Vol. 8 ›› Issue (1) : 27 DOI: 10.1007/s44218-025-00088-8
Review Article

Fisheries management of the Arabian Peninsula region with special emphasis to the Sultanate of Oman: perspectives of climate change adaptations

Author information +
History +
PDF

Abstract

The impacts of climate change on marine fisheries are becoming increasingly evident; however, climate resilient fisheries management and policy making continues to be challenging. In the Arabian Peninsula Region (APR), productivity of the marine and coastal fisheries is largely impacted by climate change. The present study provides perspectives of the existing fisheries management plans of the APR with special emphasis on the Sultanate of Oman (SO) by conducting a comprehensive literature survey that includes primary research articles, academic theses, reports, governmental decisions and legislations and reputable websites. The study proposes future climate-adaptive management strategies for APR and SO, emphasizing the risk assessments, stakeholder collaboration by taking a transboundary approach. Fisheries management in the APR currently faces challenges of overfishing, habitat degradation, and climate change impacts, with each country employing unique approaches; regional cooperation and sharing best practices are deemed essential for long-term sustainability. Fisheries management in the SO, a critical part of the country's economy, includes measures such as licensing and seasonal closures; however, a climate-resilient framework for pelagic fisheries is lacking, which is creating an uncertainty in fisheries management the face of ongoing climate change. Effective climate-adaptive fisheries management in the SO necessitates risk assessments, stakeholder engagement, and cross-border collaborations. The APR as a whole requires integrated short- and long-term strategies for addressing climate change impacts on marine ecosystems and fisheries, with a focus on flexibility and local participation. The study recommends ecosystem-based fisheries management, which incorporates both biotic and abiotic elements, as well as regional evaluations and co-management solutions to mitigate the effects of climate change.

Keywords

Sea surface temperature / Climate resilient fisheries / Ecosystem-based fisheries management / Adaptation measures / Stakeholders

Cite this article

Download citation ▾
Sachinandan Dutta, Mohammed Al Balushi, Fatma Al Harbi, Sourav Paul. Fisheries management of the Arabian Peninsula region with special emphasis to the Sultanate of Oman: perspectives of climate change adaptations. Anthropocene Coasts, 2025, 8(1): 27 DOI:10.1007/s44218-025-00088-8

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Al-AbdulrazzakD, ZellerD, BelhabibD, TesfamichaelD, PaulyD. Total marine fisheries catches in the Persian/Arabian Gulf from 1950 to 2010. Reg Stud in Mar Sci, 2015, 2: 28-34
[2]

Al-BusaidiMA, JukesDJ, BoseS. Seafood safety and quality: An analysis of the supply chain in the Sultanate of Oman. Food Control, 2016, 59: 651-662

[3]

AlbertJ, GulakaramVS, VissaNK, BhaskaranPK, DashMK. Recent warming trends in the Arabian sea: causative factors and physical mechanisms. Climate, 2023, 11(2): 35

[4]

AllisonEH, BassettHR. Climate change in the oceans: Human impacts and responses. Science, 2015, 350(6262): 778-782

[5]

Al IsmailiS, DuttaS. Ecosystem Characteristics and Trophic Model of the Artificial Reef Ecosystem in the Sea of Oman. Sultanate of Oman Sustainability, 2023, 15(24): 16574
[6]

Al-MasroorHS, Al-OufiH, McShaneP. Causes and Mitigations on Trap Ghost Fishing in Oman: Scientific Approach to Local Fishers’ Perception. J Fish Aquat Sci, 2009, 4(3): 129-135

[7]

Al-QartoubiIA, Al-MasrooriHS. Views of fishers and decision-makers on the motivations for compliance in fisheries: A case study from Oman. Int J Soc Econ, 2021, 48(2): 297-317

[8]

Al-RashidiTB, El-GamilyHI, AmosCL, RakhaKA. Sea surface temperature trends in Kuwait Bay. Arabian Gulf Natural Hazards, 2009, 50(1): 73-82

[9]

Al-ShehhiAM, DuttaS, PaulS. Stock assessment of Scomberomorus commerson (Kingfish) fishery of Oman: Perspectives of sustainability. Regional Studies in Marine Science, 2021, 47, ArticleID: 101970
[10]

Al AlawiY, DuttaS. Assessment of Seabream Fisheries Stock of Oman Using the Monte Carlo Catch Maximum Sustainable Yield and the Bayesian Schaefer Model Methods. Sustainability, 2023, 15(22): 15692

[11]

Alzeera F 2014 The Implications of Planning Failure: Evaluating the Impacts of Land Reclamation Policies on Fishermen Communities in Bahrain (Doctoral dissertation, Columbia University).
[12]

Bahri T, Vasconcellos M, Welch D, Johnson J, Perry RI, Ma X, Sharma R (2021) Adaptive management of fisheries in response to climate change (Vol. 667). FAO fisheries and aquaculture technical paper No. 667. FAO fisheries and aquaculture technical paper No. 667. Food & Agriculture Org.
[13]

Barange M, Bahri T, Beveridge MCM, Cochrane KL, Funge Smith S, Poulain F (Eds.). (2018) Impacts of climate change on fisheries and aquaculture: Synthesis of current knowledge, adaptation and mitigation options. Food and Agriculture Organization of the United Nations.
[14]

Ben-HasanA, ChristensenV. Vulnerability of the marine ecosystem to climate change impacts in the Arabian Gulf—an urgent need for more research. Global Ecology and Conservation, 2019, 17, ArticleID: e00556
[15]

BernhardtJR, LeslieHM. Resilience to climate change in coastal marine ecosystems. Ann Rev Mar Sci, 2013, 5: 371-392

[16]

Bindoff NL, Cheung W, Kairo J, Aristegui J, Guinder VA, Hallberg R, Hilmi N, Jiao N, Karim Md S, Levin LA, O'Donoghue S, Purca CS, Rinkevich B, Suga T, Tagliabue A, Williamson P, (2022) Changing Ocean, Marine Ecosystems, and Dependent Communities. In: The Ocean and Cryosphere in a Changing Climate. Cambridge University Press, Cambridge, pp. 447-588. ISBN 9781009157971. 10.1017/9781009157964.007
[17]

BlandLM, RowlandJA, ReganTJ, KeithDA, MurrayNJ, LesterRE, LinnM, RodríguezJP, NicholsonE. Developing a standardized definition of ecosystem collapse for risk assessment. Front Ecol Environ, 2018, 16(1): 29-36

[18]

Borrowing Agency. (2023). Environmental and Social Management Plan (ESMP) Yemen Food Security Response and Resilience Project (P176129) (English).
[19]

Bryndum-BuchholzA, TittensorDP, LotzeHK. The status of climate change adaptation in fisheries management: Policy, legislation and implementation. Fish Fish, 2021, 22(6): 1248-1273

[20]

BurrowsMT, SchoemanDS, RichardsonAJ, MolinosJG, HoffmannA, BuckleyLB, MoorePJ, BrownCJ, BrunoJF, DuarteCM, HalpernBS. Geographical limits to species-range shifts are suggested by climate velocity. Nature, 2014, 507(7493): 492-495

[21]

CabralRB, BradleyD, MayorgaJ, GoodellW, FriedlanderAM, SalaE, CostelloC, GainesSD. A global network of marine protected areas for food. Proc Natl Acad Sci, 2020, 117(45): 28134-28139

[22]

ColesSL. Coral species diversity and environmental factors in the Arabian Gulf and the Gulf of Oman: A comparison to the Indo-Pacific Region. Atoll Res Bull, 2003, 507: 1-19

[23]

DanquahJA, RobertsCO, AppiahM. Effects of decline in fish landings on the livelihoods of coastal communities in central region of Ghana. Coast Manag, 2021, 49(6): 617-635

[24]

Defeo O, Gianelli I, Ortega L, Pittman JS (2021) Responses of a small-scale shellfishery to climate change. In Adaptive management of fisheries in response to climate change (p. 147). FAO fisheries and aquaculture technical paper No. 667. FAO fisheries and aquaculture technical paper No. 667. Food & Agriculture Org
[25]

Dinesh KumarPK, PaulYS, MuraleedharanKR, MurtyVSN, PreenuPN. Comparison of long-term variability of Sea Surface Temperature in the Arabian Sea and Bay of Bengal. Regional Studies in Marine Science, 2016, 3: 67-75

[26]

Duplisea D, Roux M-J, Hunter KL, Rice J (2021) Considering climate change in fisheries management advice for cold-water adapted Greenland halibut (Reinhardtius hippoglossoides). In Adaptive management of fisheries in response to climate change (No. 667., p. 225). FAO fisheries and aquaculture technical paper No. 667. FAO fisheries and aquaculture technical paper. Food & Agriculture Org.
[27]

Dutta S, Al-Jufaili S, Al-Anbouri IS and Paul S (2023) Population Status of Sardinella longiceps of the Sultanate of Oman: Perspectives of Length-based Approach. Thalassas: An Int J Mar Sci pp.1–13
[28]

FailingL, GregoryR, HarstoneM. Integrating science and local knowledge in environmental risk management: a decision-focused approach. Ecol Econ, 2007, 64(1): 47-60

[29]

Field CB, Barros VR, Intergovernmental Panel on Climate Change (Eds.). (2014) Climate change 2014: Impacts, adaptation, and vulnerability: Working Group II contribution to the fifth assessment report of the Intergovernmental Panel on Climate Change. Cambridge University Press
[30]

Fisheries Statistics Book. (2021). Minsitry of Agriculture, Fisheries Wealth and Water Resources
[31]

Fishery and Aquaculture Economics and Policy Division;Fisheries and Aquaculture Management Division. (2009). Fisheries management. 2. The ecosystem approach to fisheries. 2.2 Human dimensions of the ecosystem approach to fisheries. FAO Technical Guidelines for Responsible Fisheries. No. 4, Suppl. 2, Add. 2. Rome, FAO. 88p. (Vol. 4). FAO.
[32]

Fogarty HE, Pecl GT (2021) Lessons and recommendations for the climate adaptation of key Tasmanian fisheries. In Adaptive management of fisheries in response to climate change (667th ed., pp. 245–258). FAO Fisheries and Aquaculture Technical Paper
[33]

GlibertPM, LandsbergJH, EvansJJ, Al-SarawiMA, FarajM, Al-JarallahMA, HaywoodA, IbrahemS, KlesiusP, PowellC, ShoemakerC. A fish kill of massive proportion in Kuwait Bay, Arabian Gulf, 2001: The roles of bacterial disease, harmful algae, and eutrophication. Harmful Algae, 2002, 1(2): 215-231

[34]

Grant SCH, Nener J, MacDonald BL, Boldt JL, King J, Patterson DA, Robinson KA, Wheeler S (2021) Canadian Fraser River sockeye salmon: A case study. In Adaptive management of fisheries in response to climate change (p. 259). FAO fisheries and aquaculture technical paper. Food & Agriculture Org
[35]

GrüssA, RoseKA, SimonsJ, AinsworthCH, BabcockEA, ChagarisDD, De MutsertK, FroeschkeJ, HimchakP, KaplanIC, O’FarrellH, ZetinaRejonMJ. Recommendations on the Use of Ecosystem Modeling for Informing Ecosystem-Based Fisheries Management and Restoration Outcomes in the Gulf of Mexico. Marine and Coastal Fisheries, 2017, 9(1): 281-295

[36]

GullestadP, AbotnesAM, BakkeG, Skern-MauritzenM, NedreaasK, SøvikG. Towards ecosystem-based fisheries management in Norway – Practical tools for keeping track of relevant issues and prioritising management efforts. Mar Policy, 2017, 77: 104-110

[37]

HarrisonPJ, PiontkovskiS, Al-HashmiK. Understanding how physical-biological coupling influences harmful algal blooms, low oxygen and fish kills in the Sea of Oman and the Western Arabian Sea. Mar Pollut Bull, 2017, 114(1): 25-34

[38]

HereherME. Assessment of Climate Change Impacts on Sea Surface Temperatures and Sea Level Rise—The Arabian Gulf. Climate, 2020, 8(4): 50

[39]

HobdayAJ, SpillmanCM, Paige EvesonJ, HartogJR. Seasonal forecasting for decision support in marine fisheries and aquaculture. Fish Oceanogr, 2016, 25: 45-56

[40]

Hollowed AB, Barange M, Beamish RJ, Brander K, Cochrane K, Drinkwater K, Foreman MGG, Hare JA, Holt J, Ito S, Kim S, King JR, Loeng H, MacKenzie BR, Mueter FJ, Okey TA, Peck MA, Radchenko VI, Rice JC, … Yamanaka Y (2013) Projected impacts of climate change on marine fish and fisheries. ICES Journal of Marine Science 70(5):1023–1037. https://doi.org/10.1093/icesjms/fst081
[41]

Hollowed, A. B., & Sundby, S. (2014). (2014). Change is coming to the northern oceans. (1–377). Science.
[42]

HolsmanKK, HaynieAC, HollowedAB, ReumJCP, AydinK, HermannAJ, ChengW, FaigA, IanelliJN, KearneyKA, PuntAE. Ecosystem-based fisheries management forestalls climate-driven collapse. Nat Commun, 2020, 11(1): 4579

[43]

Holsman KK, Hazen EL, Haynie A, Gourguet S, Hollowed A, Bograd SJ, Samhouri JF, Aydin K (2019) Towards climate resiliency in fisheries management. ICES J Mar Sci fsz031. https://doi.org/10.1093/icesjms/fsz031
[44]

HopeBK. An examination of ecological risk assessment and management practices. Environ Int, 2006, 32(8): 983-995

[45]

Jayabalan N, Al-Kharusi L, Al-Habsi S, Zaki S, Al-Kiyumi F, Suliman D (2011) An assessment of shared stock fishery of the kingfish Scomberomorus commerson (Lacepède, 1800) in the GCC waters. J Mar Biol Assoc India
[46]

JentoftS. Fisheries co-management as empowerment. Mar Policy, 2005, 29(1): 1-7

[47]

JentoftS, McCayB. User participation in fisheries management: Lessons drawn from international experiences. Mar Policy, 1995, 19(3): 227-246

[48]

KhosraviM, NasrolahiA, ShokriMR, DobretsovS, PanschC. Impact of warming on biofouling communities in the northern Persian Gulf. J Therm Biol, 2019, 85, ArticleID: 102403
[49]

KleypasJA, McmanusJW, MeñezLAB. Environmental Limits to Coral Reef Development: Where Do We Draw the Line?. Am Zool, 1999, 39(1): 146-159

[50]

KristoferssonD, AndersonJL. Is there a relationship between fisheries and farming? Interdependence of fisheries, animal production and aquaculture. Mar Policy, 2006, 30(6): 721-725

[51]

KumarSP, RoshinRP, NarvekarJ, KumarPKD, VivekanandanE. Response of the Arabian Sea to global warming and associated regional climate shift. Mar Environ Res, 2009, 68(5): 217-222

[52]

LachkarZ, LévyM, SmithKS. Strong Intensification of the Arabian Sea Oxygen Minimum Zone in Response to Arabian Gulf Warming. Geophys Res Lett, 2019, 46(10): 5420-5429

[53]

LamVW, AllisonEH, BellJD, BlytheJ, CheungWW, FrölicherTL, GasallaMA, SumailaUR. Climate change, tropical fisheries and prospects for sustainable development. Nature Reviews Earth & Environment, 2020, 1(9): 440-454

[54]

Lilly G (2008) Decline and Recovery of Atlantic Cod (Gadus morhua) Stocks throughout the North Atlantic. Resiliency of Gadid Stocks to Fishing and Climate Change 39–66. https://doi.org/10.4027/rgsfcc.2008.03
[55]

Link JS (2002) What Does Ecosystem-Based Fisheries Management Mean? 27(4)
[56]

LincolnS, BuckleyP, HowesEL, MaltbyKM, PinnegarJK, AliTS, AlosairiY, Al-RagumA, BagleeA, BalmesCO, HamadouRB. A regional review of marine and coastal impacts of climate change on the ROPME sea area. Sustainability, 2021, 13(24): 13810

[57]

Fisheries Statistics Book, 2021. Fishery Statistics Book for the Oman 2021, Ministry of Agriculture, Fisheries and Water Resources (MAFWR), Muscat, Oman (2021)
[58]

MaltbyKM, HowesEL, LincolnS, PinnegarJK, BuckleyP, AliTS, Al BalushiB, Al RagumA, Al ShukailHSA, BalmesCO, Ben-HamadouR. Marine climate change risks to biodiversity and society in the ROPME Sea Area. Clim Risk Manag, 2022, 35, ArticleID: 100411
[59]

McIlwainJ, HermosaGV, ClaereboudtM, Al-OufiHS, Al-AwiM. Spawning and reproductive patterns of six exploited finfish species from the Arabian Sea, Sultanate of Oman. J Appl Ichthyol, 2006, 22(2): 167-176

[60]

MEWA (1988) Executive regulations for the system of fishing, investment and protection of living aquatic resources in territorial waters (21911). Ministry of Environment, Water, and Agriculture (MEWA),. www.mewa.gov.sa
[61]

Ministerial Law No. (4) Regarding the exploitation and protection of living aquatic resources in Qatar, Pub. L. No. Ministerial Law No. (4) (1983).
[62]

NaserHA. Assessment and management of heavy metal pollution in the marine environment of the Arabian Gulf: a review. Mar Pollut Bull, 2013, 72(1): 6-13

[63]

Naser (2014) Marine Ecosystem Diversity in the Arabian Gulf: Threats and Conservation. IntechOpen. https://doi.org/10.5772/57425
[64]

NooriR, TianF, BerndtssonR, AbbasiMR, NasehMV, ModabberiA, SoltaniA, KløveB. Recent and future trends in sea surface temperature across the Persian Gulf and Gulf of Oman. PLoS ONE, 2019, 14(2) ArticleID: e0212790
[65]

OjeaE, PearlmanI, GainesSD, LesterSE. Fisheries regulatory regimes and resilience to climate change. Ambio, 2017, 46: 399-412

[66]

Olawuyi DS (2022) Environmental Law in Arab States (1st ed.). Oxford University Press. https://doi.org/10.1093/oso/9780192896186.001.0001
[67]

PerryAL, LowPJ, EllisJR, ReynoldsJD. Climate Change and Distribution Shifts in Marine Fishes. Science, 2005, 308 5730): 1912-1915

[68]

PinskyML, FogartyM. Lagged social-ecological responses to climate and range shifts in fisheries. Clim Change, 2012, 115(3–4): 883-891

[69]

PinskyML, ReygondeauG, CaddellR, Palacios-AbrantesJ, SpijkersJ, CheungWWL. Preparing ocean governance for species on the move. Science, 2018, 360(6394): 1189-1191

[70]

PiontkovskiSA, ClaereboudtMR. Interannual changes of the Arabian Sea productivity. Mar Biol Res, 2012, 8(2): 189-194

[71]

Pittman J, Ignacio G, Romania T, Nicolas C, Andres D, la R, Caston M, Arianna M, Omar D (2019) Securing sustainable small-scale fisheries through comanagement: The yellow clam fishery in Uruguay. In Securing sustainable small-scale fisheries: Sharing good practices from around the world (Vol. 9). FAO fisheries and aquaculture technical paper No. 667. FAO fisheries and aquaculture technical paper No. 667. Food & Agriculture Org
[72]

Pomeroy RS, Rivera-Guieb R (2009) Fishery co-management a practical handbook. CABI Pub. : in association with the International Development Research Centre
[73]

Pongthanapanich T, Nguyen KA, Xinhua Y (2016) Insurance for aquaculture and fishery adaptation to climate change: Experiences from China and Viet Nam. In Proceedings of FishAdapt: The Global Conference on Climate Change Adaptation for fisheries and Aquaculture (p. 169). FAO fisheries and aquaculture technical paper. Food & Agriculture Org
[74]

PortmanME. Zoning design for cross-border marine protected areas: The Red Sea Marine Peace Park case study. Ocean Coast Manag, 2007, 50(7): 499-522

[75]

Poulain F, Himes-Cornell A, Shelton C (2018) Methods and tools for climate change adaptation in fisheries and aquaculture. In Impacts of climate change on fisheries and aquaculture (p. 535)
[76]

QuinnTJ, CollieJS. Sustainability in single–species population models. Philosophical Transactions of the Royal Society b: Biological Sciences, 2005, 360(1453): 147-162

[77]

Rahman MA, Kanon KF, Islam J, Mojumdar S, Ashik A, Molla MHR (2022) Impacts of climate change on aquaculture and fisheries: An integrated approach for adaptation and mitigation. 5
[78]

Recuero VirtoL. A preliminary assessment of the indicators for Sustainable Development Goal (SDG) 14 “Conserve and sustainably use the oceans, seas and marine resources for sustainable development”. Mar Policy, 2018, 98: 47-57

[79]

Reidmiller DR, Avery CW, Easterling DR, Kunkel KE, Lewis KLM, Maycock TK, Stewart BC (2018) Impacts, Risks, and Adaptation in the United States: The Fourth National Climate Assessment, Volume II. U.S. Global Change Research Program. https://doi.org/10.7930/NCA4.2018
[80]

RieglBM. Effects of the 1996 and 1998 positive sea-surface temperature anomalies on corals, coral diseases and fish in the Arabian Gulf (Dubai, UAE). Mar Biol, 2002, 140(1): 29-40

[81]

Riegl BM, Purkis SJ (Eds.) (2012) Coral Reefs of the Gulf: Adaptation to Climatic Extremes (Vol. 3). Springer Netherlands. https://doi.org/10.1007/978-94-007-3008-3
[82]

ROPME. 2022. ROPME Policy Brief – Marine Fisheries Climate Change Adaptation. https://ropme.org/wp-content/uploads/2022/11/Marine-Fisheries-Climate-Change-Adaptation-ROPME-Policy-Brief-2022.pdf
[83]

Saher MH, Jung SJA, Elderfield H, Greaves MJ, Kroon D (2007) Sea surface temperatures of the western Arabian Sea during the last deglaciation: Arabian sea SSTS in the last 20,000 years. Paleoceanography 22(2). https://doi.org/10.1029/2006PA001292
[84]

SathishT, MLVM, ThomasLC, KuttippurathJ, PadmakumarKB. Spatial variability in the community structure of microphytoplankton along the southeastern Arabian sea during an unusually warm winter monsoon season. Reg Stud Mar Sci, 2022, 49: 102078

[85]

SchumacherJ, BergqvistL, Van BeestFM, CarstensenJ, GustafssonB, HaslerB, FlemingV, NygårdH, PakalnieteK, SokolovA, ZandersenM. Bridging the science-policy gap–toward better integration of decision support tools in coastal and marine policy implementation. Front Mar Sci, 2020, 7, ArticleID: 587500
[86]

SelkoeKA, BlencknerT, CaldwellMR, CrowderLB, EricksonAL, EssingtonTE, EstesJA, FujitaRM, HalpernBS, HunsickerME, KappelCV. Principles for managing marine ecosystems prone to tipping points. Ecosystem Health and Sustainability, 2015, 1(5): 1-18

[87]

ShafeequeM, GeorgeG, AkashS, SmithaBR, ShahP, BalchandAN. Interannual variability of chlorophyll-a and impact of extreme climatic events in the South Eastern Arabian Sea. Regional Studies in Marine Science, 2021, 48, ArticleID: 101986
[88]

Shallard B, Al-Oufi H, Bose S (2010) Resource assessment surveys as the basis for effective fisheries management
[89]

SheppardC, RaynerNA. Utility of the Hadley Centre sea ice and sea surface temperature data set (HadISST1) in two widely contrasting coral reef areas. Mar Pollut Bull, 2002, 44(4): 303-308

[90]

ShirvaniA, NazemosadatSMJ, KahyaE. Analyses of the Persian Gulf sea surface temperature: Prediction and detection of climate change signals. Arab J Geosci, 2015, 8(4): 2121-2130

[91]

SiddeekMSM, FoudaMM, HermosaGV Jr. Demersal fisheries of the Arabian Sea, the Gulf of Oman and the Arabian Gulf. Estuar Coast Shelf Sci, 1999, 49: 87-97

[92]

ThusharaV, VinayachandranPN. Unprecedented surface chlorophyll blooms in the Southeastern Arabian sea during an extreme negative Indian Ocean Dipole. Geophysical Research Letters, 2020, 47(13): e2019GL085026

[93]

Tommasi D, Stock CA, Hobday AJ, Methot R, Kaplan IC, Eveson JP, Holsman K, Miller TJ, Gaichas S, Gehlen M, Pershing A, Vecchi GA, Msadek R, Delworth T, Eakin CM, Haltuch MA, Séférian R, Spillman CM, Hartog JR, … Werner FE (2017) Managing living marine resources in a dynamic environment: The role of seasonal to decadal climate forecasts. Progress in Oceanography 152:15–49. https://doi.org/10.1016/j.pocean.2016.12.011
[94]

Vasconcellos M, Attwood C (2012) EAF Toolbox – The ecosystem approach to fisheries. FAFood and Agriculture Organization of the United NationsO. https://www.fao.org/3/cc6834en/cc6834en.pdf
[95]

VaughanGO, BurtJA. The changing dynamics of coral reef science in Arabia. Mar Pollut Bull, 2016, 105(2): 441-458

[96]

Visbeck M, Kronfeld-Goharani U, Neumann B, Rickels W, Schmidt J (2014). Securing blue wealth: The need for a special sustainable development goal for the ocean and coasts and for future ocean spatial planning.
[97]

VivekanandanE, HermesR, O’BrienC. Climate change effects in the Bay of Bengal Large Marine Ecosystem. Environmental Development, 2016, 17: 46-56

[98]

Walters C (1986) Adaptive management of renewable resources. Macmillan Publishing Company.
[99]

Wanchana W, Torell M, Siriraksophon S, Sulit VT (2016) Addressing Trans-boundary Issues and Consolidating Bilateral Arrangements to Combat IUU Fishing 14(2).
[100]

Watson Jordan T, Haynie Alan C (2018) Paths to resilience: The walleye pollock fleet uses multiple fishing strategies to buffer against environmental change in the Bering Sea. (Vol. 75). Canadian Journal of Fisheries and Aquatic Sciences.
[101]

YajunW, LifangZ. Research framework for ecosystem vulnerability: Measurement, prediction, and risk assessment. Journal of Resources and Ecology, 2020, 11(5): 499

RIGHTS & PERMISSIONS

The Author(s)

AI Summary AI Mindmap
PDF

284

Accesses

0

Citation

Detail
Sections
Recommended

AI思维导图

/