CITATIONS.md

Scientific literature

2024

• Almeida, L. Z., Laurel, B. J., Thalmann, H. L., & Miller, J. A. (2024). Warmer, earlier, faster: Cumulative effects of Gulf of Alaska heatwaves on the early life history of Pacific cod. Elem Sci Anth, 12(1), 00050.

• Arafeh-Dalmau, N., Villaseñor-Derbez, J. C., Schoeman, D. S., Mora-Soto, A., Bell, T. W., Butler, C. L., ... & Cavanaugh, K. C. (2024). Intensifying marine heatwaves and limited protection threaten global kelp forests. bioRxiv, 2024-05.

• Atalah, J., Ibañez, S., Aixalà, L., Barber, X., & Sánchez-Jerez, P. (2024). Marine heatwaves in the western Mediterranean: Considerations for coastal aquaculture adaptation. Aquaculture, 588, 740917.

• Barkhordarian, A., Nielsen, D. M., Olonscheck, D., & Baehr, J. (2024). Arctic marine heatwaves forced by greenhouse gases and triggered by abrupt sea-ice melt. Communications Earth & Environment, 5(1), 57.

• Bass, A. V., & Falkenberg, L. J. (2024). Seasonal effects and trophic pressure shape the responses of species interactions in a tropical seagrass meadow to marine heatwaves. Oikos, 2024(7), e10382.

• Benedetti-Cecchi, L., Bates, A. E., Strona, G., Bulleri, F., Horta e Costa, B., Edgar, G. J., ... & Aspillaga, E. (2024). Marine protected areas promote stability of reef fish communities under climate warming. Nature Communications, 15(1), 1822.

• Bennett, S., Alcoverro, T., Kletou, D., Antoniou, C., Boada, J., Moreno, X. B., ... & Marbà, N. (2024). Warm and cool-edge populations reveal high resilience of seagrass (Posidonia oceanica) to warming. ESS Open Archive eprints, 365, 36526783.

• Bilajac, A. (2024). Ekološke karakteristike i uzgojni potencijal preostalih populacija vrste Gongolaria barbata (Stackhouse) Kuntze na istarskoj obali (Doctoral dissertation, University of Zagreb. Faculty of Science. Department of Geology).

• Bilajac, A., Gljušćić, E., Smith, S., Najdek, M., & Iveša, L. (2024). Effects of extreme temperatures and recovery potential of Gongolaria barbata from a coastal lagoon in the northern Adriatic Sea: an ex situ approach. Annals of botany, 134(3), 415-426.

• Bustos, D. F., Narváez, D. A., Dewitte, B., Oerder, V., Vidal, M., & Tapia, F. (2024). Revisiting historical trends in the Eastern Boundary Upwelling Systems with a machine learning method. Frontiers in Marine Science, 11, 1446766.

• Capdevila, P., Zentner, Y., Rovira, G. L., Garrabou, J., Medrano, A., & Linares, C. (2024). Mediterranean octocoral populations exposed to marine heatwaves are less resilient to disturbances. Journal of Animal Ecology.

• Carbonne, C., Comeau, S., Plichon, K., Schaub, S., Gattuso, J. P., & Teixidó, N. (2024). Response of two temperate scleractinian corals to projected ocean warming and marine heatwaves. Royal Society Open Science, 11(3), 231683.

• Chan, K. Y. K., Kui, L., McDonald, A. M., Ritger, A. L., & Hofmann, G. E. (2024). Coastal marine heatwaves in the Santa Barbara Channel: decadal trends and ecological implications. Frontiers in Marine Science, 11, 1476542.

• Chefaoui, R. M., Martínez, B. D. C., & Viejo, R. M. (2024). Temporal variability of sea surface temperature affects marine macrophytes range retractions as well as gradual warming. Scientific Reports, 14(1), 14206.

• Cimolai, C., & Aguilar, E. (2024). Assessing Argentina's heatwave dynamics (1950–2022): a comprehensive analysis of temporal and spatial variability using ERA5-LAND. Theoretical and Applied Climatology, 155(6), 4925-4940.

• Douglas, E. J., Lam-Gordillo, O., Hailes, S. F., Lohrer, A. M., & Cummings, V. J. (2024). Characterising intertidal sediment temperature gradients in estuarine systems. Estuarine, Coastal and Shelf Science, 309, 108968.

• García‐Escudero, C. A., Litsi‐Mizan, V., Efthymiadis, P. T., Gerakaris, V., Serrano, O., & Apostolaki, E. T. (2024). Strong marine heatwaves trigger flowering in seagrass. Limnology and Oceanography, 69(7), 1494-1507.

• Giménez, L., Boersma, M., & Wiltshire, K. H. (2024). A multiple baseline approach for marine heatwaves. Limnology and Oceanography, 69(3), 638-651.

• Guibourd de Luzinais, V., Gascuel, D., Reygondeau, G., & Cheung, W. W. (2024). Large potential impacts of marine heatwaves on ecosystem functioning. Global Change Biology, 30(7), e17437.

• Hanafy, M. H., Dosoky, M. Y., & Mohamed, A. R. Thermal history of coral reefs along the Egyptian coast of the Red Sea. In Coral Reefs and Associated Marine Fauna around the Arabian Peninsula (pp. 47-59). CRC Press.

• Isfahani, P. M., Modarres, R., Kashkooli, O. B., & Sharma, A. (2024). Evaluating heatwaves in the middle-east using a dynamic thresholding alternative. Climate Dynamics, 62(7), 6315-6328.

• Kache, P., Ruiz-Carrascal, D., Lowe, R., Stewart-Ibarra, A. M., Seto, K. C., Diuk-Wasser, M., & Santos-Vega, M. (2024). Climate extremes increase dengue risk along elevation and socio-economic gradients in Colombia. medRxiv, 2024-04.

• Kim, S. H., Suonan, Z., Kim, H., Zhang, F., Kim, K. Y., Short, F. T., & Lee, K. S. (2024). Long-term responses of intertidal and subtidal seagrasses to anthropogenic disturbances and sea warming in the northwestern pacific coast. Ocean & Coastal Management, 258, 107421.

• Koch, M., Jungblut, S., Götze, S., Bock, C., & Saborowski, R. (2024). Marine heatwaves in the Subarctic and the effect of acute temperature change on the key grazer Strongylocentrotus droebachiensis (Echinoidea, Echinodermata). ICES Journal of Marine Science, fsae181.

• Kozal, L. C., Hofmann, G. E., Hawes, N. A., & Ragg, N. L. (2024). Paternal heat exposure affects progeny larval development in green-lipped mussels Perna canaliculus. Aquaculture Environment Interactions, 16, 43-57.

• Kozal, L. C., Nelson, J. C., & Hofmann, G. E. (2024). Kelp-associated variability in seawater chemistry during a marine heatwave event connects to transgenerational effects in the purple urchin Strongylocentrotus purpuratus. Marine Ecology Progress Series, 733, 59-77.

• Li, H., Sun, J., Zhou, Q., Sojka, M., Ptak, M., Luo, Y., ... & Tóth, V. R. (2024). 150-year daily data (1870–2021) in lakes and rivers reveals intensifying surface water warming and heatwaves in the Pannonian Ecoregion (Hungary). Journal of Hydrology: Regional Studies, 56, 101985.

• Liang, E. C., Rejeski, K., Fei, T., Albittar, A., Huang, J. J., Portuguese, A. J., ... & Gauthier, J. (2024). Development and validation of an automated computational approach to grade immune effector cell-associated hematotoxicity. Bone Marrow Transplantation, 59(7), 910-917.

• Lubitz, N., Daly, R., Smoothey, A. F., Vianello, P., Roberts, M. J., Schoeman, D. S., ... & Barnett, A. (2024). Climate change-driven cooling can kill marine megafauna at their distributional limits. Nature climate change, 14(5), 526-535.

• Maluleke, A. (2024). Exchange of Carbon dioxide, Water and Energy in South African semi-arid ecosystems.

• Meunier, Z. D., Hacker, S. D., & Menge, B. A. (2024). Regime shifts in rocky intertidal communities associated with a marine heatwave and disease outbreak. Nature Ecology & Evolution, 8(7), 1285-1297.

• Mikes, M. Z., Pieczka, I., & Dezső, Z. (2024). Characteristics and observed seasonal changes in Cold Air Outbreaks in Hungary using station data (1901–2020). Hungarian Geographical Bulletin, 73(2), 115-130.

• Miller, J. A., Almeida, L. Z., Rogers, L. A., Thalmann, H. L., Forney, R. M., & Laurel, B. J. (2024). Age, not growth, explains larger body size of Pacific cod larvae during recent marine heatwaves. Scientific Reports, 14(1), 19313.

• Monteiro, M., Azeiteiro, U. M., & Queiroga, H. (2024). Climatic resilience: Marine heatwaves do not influence the variations of green crab (Carcinus maenas) megalopae supply patterns to a western iberian estuary. Marine Environmental Research, 198, 106567.

• Montie, S., Schiel, D. R., & Thomsen, M. S. (2024). Shifts in foundation species dominance and altered interaction networks after compounding seismic uplift and extreme marine heatwaves. Marine Environmental Research, 202, 106738.

• Montie, S., Thoral, F., Smith, R. O., Cook, F., Tait, L. W., Pinkerton, M. H., ... & Thomsen, M. S. (2024). Seasonal trends in marine heatwaves highlight vulnerable coastal ecoregions and historic change points in New Zealand. New Zealand Journal of Marine and Freshwater Research, 58(2), 274-299.

• Mora-Soto, A., Schroeder, S., Gendall, L., Wachmann, A., Narayan, G. R., Read, S., ... & Costa, M. (2024). Kelp dynamics and environmental drivers in the southern Salish Sea, British Columbia, Canada. Frontiers in Marine Science, 11, 1323448.

• Olguín-Jacobson, C., Arafeh-Dalmau, N., Early-Capistrán, M. M., Montes, J. A. E., Hernandez-Velasco, A., Martinez, R., ... & Micheli, F. (2024). Recovery mode: Marine protected areas enhance the resilience of kelp species from marine heatwaves. bioRxiv, 2024-05.

• Pak, G. (2024). Optimal Proxy Indices for Annual Marine Heatwave Characteristics Using Monthly Sea Surface Temperature. Ocean Science Journal, 59(3), 34.

• Perera, A. K. S. S. (2024). Machine Learning and Geostatistical Approaches for Discovery of Weather and Climate Events Related to El Niño Phenomena (Doctoral dissertation, Chapman University).

• Perera, S., Maneja, R. H., Allali, M., Rakovski, C., Linstead, E., Struppa, D., ... & El-Askary, H. (2024). Time series decomposition of land surface temperature for long-term trend forecasting and impact on nesting sea turtle habitats in the Arabian Gulf. Journal of Applied Meteorology and Climatology, 63(12), 1479-1497.

• Pinto, G., Möllmann, C., Hinrichsen, H. H., Lehmann, A., Quaas, M., & Voss, R. (2024). Longer and more frequent marine heatwaves in the Western Baltic Sea.

• Pulido Mantas, T., Roveta, C., Calcinai, B., Benelli, F., Coppari, M., Di Camillo, C. G., ... & Cerrano, C. (2024). Structure from Motion Photogrammetry as an effective nondestructive technique to monitor morphological plasticity in Benthic organisms: the Case Study of Sarcotragus Foetidus Schmidt, 1862 (Porifera, Demospongiae) in the Portofino MPA. Diversity, 16(3), 175.

• Radfar, S., Foroumandi, E., Moftakhari, H., Moradkhani, H., Foltz, G. R., & Sen Gupta, A. (2024). Global predictability of marine heatwave induced rapid intensification of tropical cyclones. Earth's Future, 12(12), e2024EF004935.

• Radfar, S., Moftakhari, H., & Moradkhani, H. (2024). Rapid intensification of tropical cyclones in the Gulf of Mexico is more likely during marine heatwaves. Communications Earth & Environment, 5(1), 421.

• Ramírez-Zúñiga, M. A., Pérez-Estrada, C. J., Lopez-Calderon, J. M., Cannon, A. L., Vanderplank, S., & Favoretto, F. (2024). Updating and validating seagrass ecosystem knowledge in the gulf of California: a comprehensive review. Frontiers in Marine Science, 11, 1402044.

• Reynaert, S. (2024). More persistent rainfall regimes: consequences and solutions for natural and managed grassland systems (Doctoral dissertation, University of Antwerp).

• Rohwer, R. R., Kirkpatrick, M., Garcia, S. L., Kellom, M., McMahon, K. D., & Baker, B. J. (2024). Bacterial ecology and evolution converge on seasonal and decadal scales. bioRxiv.

• Saldanha-Ferrari, C. H., Bravo, J. M., Tavares, M. H., da Motta Marques, D., & Rodrigues, L. H. R. (2024). Climate Change Effects on a Subtropical Coastal Shallow Lake from Heatwave Indexes. Earth Systems and Environment, 1-15.

• Salini, R., Tora, S., Filipponi, F., Conte, A., Giansante, C., & Ippoliti, C. (2024). Analyzing trend and heatwaves of 15 Years of Sea Surface Temperature Variations along the Italian Adriatic Coast. Veterinaria Italiana, 60(4).

• Salland, N. (2024). Examining climate-driven shifts in the ecological structure and functioning of Northeast Atlantic kelp forests (Doctoral dissertation, University of Southampton).

• Sanders, R. D., Obaza, A. K., Grime, B. C., Lindhart, M., Miller, L. P., Elsmore, K. E., ... & Leichter, J. J. (2024). Wave, light, and dissolved oxygen exposures drive novel coastal eelgrass (Zostera pacifica) transplant performance. Frontiers in Marine Science, 11, 1355449.

• Smith, K. E., Aubin, M., Burrows, M. T., Filbee-Dexter, K., Hobday, A. J., Holbrook, N. J., ... & Smale, D. A. (2024). Global impacts of marine heatwaves on coastal foundation species. Nature Communications, 15(1), 5052.

• Sow, M., & Gaye, D. (2024). Categorization and multi-criteria analysis of heat wave vulnerability in Senegal. Journal of Water and Climate Change, 15(11), 5382-5396.

• Stipcich, P., Pansini, A., & Ceccherelli, G. (2024). Resistance of Posidonia oceanica seedlings to warming: investigating the importance of the lag-phase duration between two heat events to thermo-priming. Marine Pollution Bulletin, 204, 116515.

• Tassone, S. J., & Pace, M. L. (2024). Increased frequency of sediment heatwaves in a Virginia seagrass meadow. Estuaries and Coasts, 47(3), 656-669.

• Thalmann, H. L., Laurel, B. J., Almeida, L. Z., Osborne, K. E., Marshall, K., & Miller, J. A. (2024). Marine heatwaves alter the nursery function of coastal habitats for juvenile Gulf of Alaska Pacific cod. Scientific Reports, 14(1), 14018.

• Tomas, F., Hernan, G., Mañez-Crespo, J., Arona, A., Meléndez, D. H., Reynés, X., ... & Ballesteros, E. (2024). Mass flowering and unprecedented extended pseudovivipary in seagrass (Posidonia oceanica) after a Marine Heat Wave. Marine Pollution Bulletin, 203, 116394.

• Valdazo Hernández, J. A. (2024). Forests of the brown macroalgae Gongolaria abies-marina (SG Gemelin) Kuntze: from phenology to temporal trends in Gran Canaria Island (eastern Atlantic) (Doctoral dissertation).

• Valdazo, J., Coca, J., Haroun, R., Bergasa, O., Viera-Rodríguez, M. A., & Tuya, F. (2024). Local and global stressors as major drivers of the drastic regression of brown macroalgae forests in an oceanic island. Regional Environmental Change, 24(2), 65.

• Vermandele, F., Sasaki, M., Winkler, G., Dam, H. G., Madeira, D., & Calosi, P. (2024). When the Going Gets Tough, the Females Get Going: Sex‐Specific Physiological Responses to Simultaneous Exposure to Hypoxia and Marine Heatwave Events in a Ubiquitous Copepod. Global Change Biology, 30(10), e17553.

• Villaseñor-Derbez, J. C., Arafeh-Dalmau, N., & Micheli, F. (2024). Past and future impacts of marine heatwaves on small-scale fisheries in Baja California, Mexico. Communications Earth & Environment, 5(1), 623.

• Villeneuve, A. R., & White, E. R. (2024). Predicting organismal response to marine heatwaves using dynamic thermal tolerance landscape models. Journal of Animal Ecology.

• Wang, J., Sun, X., Zhao, Y., Zheng, S., & Zhu, M. (2024). Long-term trends of heat waves and ecosystem responses in Jiaozhou Bay, the Yellow Sea. Marine Pollution Bulletin, 209, 117304.

• Whittington, R. J., Ingram, L., & Rubio, A. (2024). Environmental Conditions Associated with Four Index Cases of Pacific Oyster Mortality Syndrome (POMS) in Crassostrea gigas in Australia Between 2010 and 2024: Emergence or Introduction of Ostreid herpesvirus-1?. Animals, 14(21), 3052.

• Windoloski, S. N. (2024). The Thermal Response of Small Streams to Atmospheric Heat Waves in the Oregon Coast Range.

• Woolway, R. I., Tong, Y., Feng, L., Zhao, G., Dinh, D. A., Shi, H., ... & Shi, K. (2024). Multivariate extremes in lakes. Nature Communications, 15(1), 4559.

• Zhou, Q., Di Nunno, F., Sun, J., Sojka, M., Ptak, M., Qian, J., ... & Granata, F. (2024). Characteristics of river heatwaves in the Vistula River basin, Europe. Heliyon, 10(16).

2023

• Arafeh-Dalmau, N., Munguia-Vega, A., Micheli, F., Vilalta-Navas, A., Villaseñor-Derbez, J. C., Précoma-de la Mora, M., ... & Possingham, H. P. (2023). Integrating climate adaptation and transboundary management: guidelines for designing climate-smart marine protected areas. One Earth, 6(11), 1523-1541.

• Barbeaux, S. J. (2023). Ecosystem-linked assessment model for Gulf of Alaska Pacific cod to assess climate change driven changes in productivity.

• Bass, A. V., & Falkenberg, L. J. (2023). Two tropical seagrass species show differing indicators of resistance to a marine heatwave. Ecology and Evolution, 13(7), e10304.

• Bernal-Ibáñez, A., Cacabelos, E., Quintano, E., & Gestoso, I. (2023). Prior stress by marine heatwaves and micro-habitat fragmentation drive the colonisation of epifaunal assemblages in marine forests. Marine Ecology Progress Series, 722, 89-105.

• Capdevila, P., Zentner, Y., Rovira, G. L., Garrabou, J., Medrano, A., & Linares, C. (2023). Marine heatwaves favour resistant Mediterranean octocoral populations at the expense of their speed of recovery. bioRxiv, 2023-11.

• Clare, X. S. (2023). Understanding Relationships Between Human and Marine Communities via Experimentation, Long-Term Data and Education. University of California, Santa Barbara.

• Collazo, S., Barrucand, M., & Rusticucci, M. (2023). Hot and dry compound events in South America: present climate and future projections, and their association with the Pacific Ocean. Natural Hazards, 119(1), 299-323.

• Cravatte, S. E., Pietri, A., Colas, F., & Pujol, C. (2023). Marine Heatwaves Offshore Central and South Chile: Understanding Forcing Mechanisms During the Years 2016-2017. Advances in marine heatwave interactions, 117.

• Ding, X., Liu, J., Liu, W., Dai, S., Ke, Z., Guo, J., ... & Tan, Y. (2023). Phytoplankton communities miniaturization driven by extreme weather in subtropical estuary under climate changes. Water Research, 245, 120588.

• Doni, L., Oliveri, C., Lasa, A., Di Cesare, A., Petrin, S., Martinez-Urtaza, J., ... & Vezzulli, L. (2023). Large-scale impact of the 2016 Marine Heatwave on the plankton-associated microbial communities of the Great Barrier Reef (Australia). Marine Pollution Bulletin, 188, 114685.

• Edullantes, B., Concolis, B. M. M., Quilestino-Olario, R., Atup, D. P. D., Cortes, A., & Yñiguez, A. T. (2023). Characteristics of marine heatwaves in the Philippines. Regional Studies in Marine Science, 62, 102934.

• González-Trujillo, J. D., Román-Cuesta, R. M., Muñiz-Castillo, A. I., Amaral, C. H., & Araújo, M. B. (2023). Multiple dimensions of extreme weather events and their impacts on biodiversity. Climatic Change, 176(11), 155.

• Hastings, K. K., Gelatt, T. S., Maniscalco, J. M., Jemison, L. A., Towell, R., Pendleton, G. W., & Johnson, D. S. (2023). Reduced survival of Steller sea lions in the Gulf of Alaska following marine heatwave. Frontiers in Marine Science, 10, 1127013.

• Laurel, B. J., Abookire, A., Barbeaux, S. J., Almeida, L. Z., Copeman, L. A., Duffy‐Anderson, J., ... & Rogers, L. A. (2023). Pacific cod in the Anthropocene: An early life history perspective under changing thermal habitats. Fish and Fisheries, 24(6), 959-978.

• Liu, S., Lao, Q., Zhou, X., Jin, G., Chen, C., & Chen, F. (2023). Impacts of marine heatwave events on three distinct upwelling systems and their implications for marine ecosystems in the Northwestern South China Sea. Remote Sensing, 16(1), 131.

• Lopes, V. M., Court, M., Seco, M. C., Borges, F. O., Vicente, B., Lage, S., ... & Rosa, R. (2023). Gymnodinium catenatum paralytic shellfish toxin production and photobiological responses under marine heat waves. Toxins, 15(2), 157.

• Lubitz, N. (2023). Context-dependent movement behaviour in marine predators: the causes and consequences of behavioural variability (Doctoral dissertation, James Cook University).

• Lucas, C. C., Lima, I. C., Garcia, T. M., Tavares, T. C. L., Carneiro, P. B. M., Teixeira, C. E. P., ... & Soares, M. O. (2023). Turbidity buffers coral bleaching under extreme wind and rainfall conditions. Marine Environmental Research, 192, 106215.

• Lucas, C. C., Teixeira, C. E. P., Braga, M. D. A., Júnior, F. C., Paiva, S. V., Gurgel, A. L., ... & Soares, M. O. (2023). Heatwaves and a decrease in turbidity drive coral bleaching in Atlantic marginal equatorial reefs. Frontiers in Marine Science, 10, 1061488.

• Matsumoto, H., Azuma, N., & Chiba, S. (2023). Effects of heatwave events on the seagrass-dwelling crustacean Pandalus latirostris in a subarctic lagoon. Marine Environmental Research, 192, 106226.

• Mohamed, B., Barth, A., & Alvera-Azcarate, A. (2023). Extreme marine heatwaves and cold-spells events in the Southern North Sea: classifications, patterns, and trends. Frontiers in Marine Science, 10, 1258117.

• Monteiro, M., Cruz, J., Azeiteiro, U., Marques, S. C., Baptista, V., & Teodósio, M. A. (2023). Dynamics of Decapoda larvae communities in a southwest Iberian estuary: Understanding the impact of different thermal regimes. Estuarine, Coastal and Shelf Science, 294, 108547.

• Monteiro, M., de Castro, S. L., Marques, S. C., Freitas, R., & Azeiteiro, U. M. (2023). An emergent treat: Marine heatwaves-Implications for marine decapod crustacean species-An overview. Environmental Research, 229, 116004.

• Montie, S. (2023). Marine Heatwave Impacts On New Zealand Algal Populations And Their Associations With Epibiota.

• Mueller, J. S., Grammel, P. J., Bill, N., Rohde, S., & Schupp, P. J. (2023). Mass mortality event of the giant barrel sponge Xestospongia sp.: population dynamics and size distribution in Koh Phangan, Gulf of Thailand. PeerJ, 11, e16561.

• Muñoz-Pizza, D. M., Sanchez-Rodriguez, R. A., & Gonzalez-Manzano, E. (2023). Linking climate change to urban planning through vulnerability assessment: The case of two cities at the Mexico-US border. Urban Climate, 51, 101674.

• Oliveira, H., Maulvault, A. L., Santos, C. P., Silva, M., Bandarra, N. M., Valente, L. M., ... & Anacleto, P. (2023). Can marine heatwaves affect the fatty acid composition and energy budget of the tropical fish Zebrasoma scopas?. Environmental Research, 224, 115504.

• Oliveira Soares, M. (2023). Marine heatwaves lead to bleaching and mass mortality in a key zoantharian.

• Orenes‐Salazar, V., Navarro‐Martínez, P. C., Ruíz, J. M., & García‐Charton, J. A. (2023). Recurrent marine heatwaves threaten the resilience and viability of a key Mediterranean octocoral species. Aquatic Conservation: Marine and Freshwater Ecosystems, 33(11), 1161-1174.

• Pastor, F., & Khodayar, S. (2023). Marine heat waves: Characterizing a major climate impact in the Mediterranean. Science of the Total Environment, 861, 160621.

• Peal, R., Worsfold, M., & Good, S. (2023). Comparing global trends in marine cold spells and marine heatwaves using reprocessed satellite data. State of the Planet, 1, 1-10.

• Portela, A. P., Gonçalves, J. F., Durance, I., Vieira, C., & Honrado, J. (2023). Riparian forest response to extreme drought is influenced by climatic context and canopy structure. Science of the Total Environment, 881, 163128.

• Quilestino-Olario, R., Concolis, B. M. M., Atup, D. P. D., Cortes, A., Yñiguez, A. T., & Edullantes, B. (2023). Co-occurrence of a marine heatwave and a reported tomato jellyfish (Crambione mastigophora Maas, 1903) bloom in March 2020 at El Nido, Palawan, Philippines. Plankton and Benthos Research, 18(2), 93-105.

• Robinson, C. L., Bertram, D. F., Shannon, H., von Biela, V. R., Greentree, W., Duguid, W., & Arimitsu, M. L. (2023). Reduction in overwinter body condition and size of Pacific sand lance has implications for piscivorous predators during marine heatwaves. Marine Ecology Progress Series.

• Rosemond, R. C. (2023). Influence of Novel Ocean Conditions on Life History Characteristics of a Nearshore Rockfish with Implications for Population Assessment and Management.

• Roveta, C., Coppari, M., Calcinai, B., Di Camillo, C. G., Marrocco, T., Pulido Mantas, T., ... & Cerrano, C. (2023). What’s the key for success? Translocation, growth and thermal stress mitigation in the Mediterranean coral Cladocora caespitosa (Linnaeus, 1767). Frontiers in Marine Science, 10, 1199048.

• Roveta, C., Pulido Mantas, T., Bierwirth, J., Calcinai, B., Coppari, M., Di Camillo, C. G., ... & Cerrano, C. (2023). Can colony resizing represent a strategy for octocorals to face climate warming? The case of the precious red coral Corallium rubrum. Coral Reefs, 42(2), 535-549.

• Sahin, D., Schoepf, V., Filbee-Dexter, K., Thomson, D. P., Radford, B., & Wernberg, T. (2023). Heating rate explains species-specific coral bleaching severity during a simulated marine heatwave. Marine Ecology Progress Series, 706, 33-46.

• Smith, K. E., Burrows, M. T., Hobday, A. J., King, N. G., Moore, P. J., Sen Gupta, A., ... & Smale, D. A. (2023). Biological impacts of marine heatwaves. Annual review of marine science, 15(1), 119-145.

• Soares, M. O., Rabelo, E. F., & Gurgel, A. L. (2023). Marine heatwaves lead to bleaching and mass mortality in a key zoantharian. Marine Biodiversity, 53(1), 11.

• Stipcich, P., Beca-Carretero, P., Álvarez-Salgado, X. A., Apostolaki, E. T., Chartosia, N., Efthymiadis, P. T., ... & Ceccherelli, G. (2023). Effects of high temperature and marine heat waves on seagrasses: Is warming affecting the nutritional value of Posidonia oceanica?. Marine Environmental Research, 184, 105854.

• Tassone, S. J., Besterman, A. F., Buelo, C. D., Ha, D. T., Walter, J. A., & Pace, M. L. (2023). Increasing heatwave frequency in streams and rivers of the United States. Limnology and Oceanography Letters, 8(2), 295-304.

• Thoral, F. (2023). Seabed irradiance in a warming world (Doctoral dissertation, University of Canterbury Christchurch).

• Tolimieri, N., Shelton, A. O., Samhouri, J. F., Harvey, C. J., Feist, B. E., Williams, G. D., ... & Waddell, J. (2023). Changes in kelp forest communities off Washington, USA, during and after the 2014-2016 marine heatwave and sea star wasting syndrome. Marine Ecology Progress Series, 703, 47-66.

• Tran, L. L., & Johansen, J. L. (2023). Seasonal variability in resilience of a coral reef fish to marine heatwaves and hypoxia. Global Change Biology, 29(9), 2522-2535.

• Whalen, M. A., Starko, S., Lindstrom, S. C., & Martone, P. T. (2023). Heatwave restructures marine intertidal communities across a stress gradient. Ecology, 104(5), e4027.

• White, C., Twiname, S., Mundy, C., Quigley, B., & Gardner, C. (2023). Development of a temperature monitoring framework for Tasmania’s seafood industry during marine heatwaves. Fisheries Research and Development Corporation Project Proposal, 99, 2023-099.

• Zhang, T., Chen, T., Liu, S., Lin, X., Li, S., & Yan, W. (2023). Coral reef resilience persisted for a millennium but has declined rapidly in recent decades. Frontiers in Marine Science, 10, 1143728.

• Zhu, S., Di Nunno, F., Ptak, M., Sojka, M., & Granata, F. (2023). A novel optimized model based on NARX networks for predicting thermal anomalies in Polish lakes during heatwaves, with special reference to the 2018 heatwave. Science of the Total Environment, 905, 167121.

2022

• Arafeh Dalmau, N. (2022). Impacts of marine heatwaves to kelp forests and climate-smart conservation.

• Barkhordarian, A., Nielsen, D. M., & Baehr, J. (2022). Greenhouse Gas Forcing a Necessary Causation for Marine Heatwaves Over the Northeast Pacific Warming Pool.

• Becker, F. N., Fink, A. H., Bissolli, P., & Pinto, J. G. (2022). Towards a more comprehensive assessment of the intensity of historical European heat waves (1979–2019). Atmospheric Science Letters, 23(11), e1120.

• Bennett, S., Alcoverro, T., Kletou, D., Antoniou, C., Boada, J., Buñuel, X., ... & Marbà, N. (2022). Resilience of seagrass populations to thermal stress does not reflect regional differences in ocean climate. New Phytologist, 233(4), 1657-1666.

• Bernal-Ibáñez, A., Gestoso, I., Ramalhosa, P., Campanati, C., & Cacabelos, E. (2022). Interaction of marine heatwaves and grazing on two canopy-forming algae. Journal of Experimental Marine Biology and Ecology, 556, 151795.

• Bove, C. B., Mudge, L., & Bruno, J. F. (2022). A century of warming on Caribbean reefs. PLOS Climate, 1(3), e0000002.

• Chatterjee, A., Anil, G., & Shenoy, L. R. (2022). Marine heatwaves in the Arabian Sea. Ocean Science, 18(3), 639-657.

• Choi, W., Bang, M., Joh, Y., Ham, Y. G., Kang, N., & Jang, C. J. (2022). Characteristics and Mechanisms of Marine Heatwaves in the East Asian Marginal Seas: Regional and Seasonal Differences. Remote Sensing, 14(15), 3522.

• Clare, X. S., Kui, L., & Hofmann, G. E. (2022). Larval Thermal Tolerance of Kellet's Whelk (Kelletia kelletii) as a Window into the Resilience of a Wild Shellfishery to Marine Heatwaves. Journal of Shellfish Research, 41(2), 283-290.

• De Leij, R. (2022). Functional response of the antarctic sea urchin, sterechinus neumayeri, to environmental change and extreme events in the context of a warming climate (Doctoral dissertation, University of Southampton).

• De Leij, R., Grange, L. J., & Peck, L. S. (2022). Functional thermal limits are determined by rate of warming during simulated marine heatwaves. Marine Ecology Progress Series, 685, 183-196.

• Duarte, B., Repolho, T., Paula, J. R., Caçador, I., Matos, A. R., & Rosa, R. (2022). Ocean Acidification Alleviates Dwarf Eelgrass (Zostera noltii) Lipid Landscape Remodeling under Warming Stress. Biology, 11(5), 780.

• Favoretto, F., Sánchez, C., & Aburto-Oropeza, O. (2022). Warming and marine heatwaves tropicalize rocky reefs communities in the Gulf of California. Progress in Oceanography, 206, 102838.

• Feng, Y., Bethel, B. J., Dong, C., Zhao, H., Yao, Y., & Yu, Y. (2022). Marine heatwave events near Weizhou Island, Beibu Gulf in 2020 and their possible relations to coral bleaching. Science of The Total Environment, 823, 153414.

• García Molinos, J., Hunt, H. L., Green, M. E., Champion, C., Hartog, J. R., & Pecl, G. T. (2022). Climate, currents and species traits contribute to early stages of marine species redistribution. Communications Biology, 5(1), 1-10.

• Garrabou, J., Gómez‐Gras, D., Medrano, A., Cerrano, C., Ponti, M., Schlegel, R., ... & Harmelin, J. G. (2022). Marine heatwaves drive recurrent mass mortalities in the Mediterranean Sea. Global Change Biology, 28(19), 5708-5725.

• Goebeler, N., Norkko, A., & Norkko, J. (2022). Ninety years of coastal monitoring reveals baseline and extreme ocean temperatures are increasing off the Finnish coast. Communications earth & environment, 3(1), 1-11.

• Ilarri, M., Souza, A. T., Dias, E., & Antunes, C. (2022). Influence of climate change and extreme weather events on an estuarine fish community. Science of The Total Environment, 827, 154190.

• Izquierdo, P., Rico, J. M., Taboada, F. G., González-Gil, R., & Arrontes, J. (2022). Characterization of marine heatwaves in the Cantabrian Sea, SW Bay of Biscay. Estuarine, Coastal and Shelf Science, 107923.

• Izquierdo, P., Taboada, F. G., González-Gil, R., Arrontes, J., & Rico, J. M. (2022). Alongshore upwelling modulates the intensity of marine heatwaves in a temperate coastal sea. Science of the Total Environment, 835, 155478.

• Kapwata, T., Gebreslasie, M. T., & Wright, C. Y. (2022). An analysis of past and future heatwaves based on a heat-associated mortality threshold: towards a heat health warning system. Environmental health, 21(1), 1-12.

• Kashkooli, O. B., Karimian, S., & Modarres, R. (2022). Spatiotemporal variability of the Persian Gulf and Oman Sea marine heatwaves during 1982–2020. Marine Pollution Bulletin, 184, 114174.

• Klingbeil III, W. H., Montecinos, G. J., & Alberto, F. (2022). Giant kelp genetic monitoring before and after disturbance reveals stable genetic diversity in Southern California. Frontiers in Marine Science, 1715.

• Li, Y., Ren, G., Wang, Q., Mu, L., & Niu, Q. (2022). Marine Heatwaves in the South China Sea: Tempo-Spatial Pattern and Its Association with Large-Scale Circulation. Remote Sensing, 14(22), 5829.

• Magel, C. L., Chan, F., Hessing-Lewis, M., & Hacker, S. D. (2022). Differential Responses of Eelgrass and Macroalgae in Pacific Northwest Estuaries Following an Unprecedented NE Pacific Ocean Marine Heatwave. Front. Mar. Sci, 9, 838967.

• Marochi, M. Z., De Grande, F. R., Pardo, J. C. F., Montenegro, Á., & Costa, T. M. (2022). Marine heatwave impacts on newly-hatched planktonic larvae of an estuarine crab. Estuarine, Coastal and Shelf Science, 278, 108122.

• Martinez-Baroja, L., Rey-Benayas, J. M., Perez-Camacho, L., & Villar-Salvador, P. (2022). Drivers of oak establishment in Mediterranean old fields from 25-year-old woodland islets planted to assist natural regeneration. European Journal of Forest Research, 141(1), 17-30.

• Mercado, J. M., Gómez-Jakobsen, F., Korbee, N., Aviles, A., Bonomi-Barufi, J., Muñoz, M., ... & Figueroa, F. L. (2022). Analyzing environmental factors that favor the growth of the invasive brown macroalga Rugulopteryx okamurae (Ochrophyta): The probable role of the nutrient excess. Marine Pollution Bulletin, 174, 113315.

• Mo, S., Chen, T., Chen, Z., Zhang, W., & Li, S. (2022). Marine heatwaves impair the thermal refugia potential of marginal reefs in the northern South China Sea. Science of The Total Environment, 825, 154100.

• Mora‐Soto, A., Aguirre, C., Iriarte, J. L., Palacios, M., Macaya, E. C., & Macias‐Fauria, M. (2022). A Song of Wind and Ice: Increased Frequency of Marine Cold‐Spells in Southwestern Patagonia and Their Possible Effects on Giant Kelp Forests. Journal of Geophysical Research: Oceans, 127(6), e2021JC017801.

• Murray, C. S., & Klinger, T. (2022). High P CO2 does not alter the thermal plasticity of developing Pacific herring embryos during a marine heatwave. Journal of Experimental Biology, 225(5), jeb243501.

• Pappert, D., Barriendos, M., Brugnara, Y., Imfeld, N., Jourdain, S., Przybylak, R., ... & Brönnimann, S. (2022). Statistical reconstruction of daily temperature and sea level pressure in Europe for the severe winter 1788/89. Climate of the Past, 18(12), 2545-2565.

• Pastor, F., & Khodayar, S. (2022). Marine heat waves: Characterizing a major climate impact in the Mediterranean. Science of The Total Environment, 160621.

• Paton, E. (2022). Intermittency analysis of dry spell magnitude and timing using different spell definitions. Journal of Hydrology, 608, 127645.

• Perkins, N. R., Monk, J., Soler, G., Gallagher, P., & Barrett, N. S. (2022). Bleaching in sponges on temperate mesophotic reefs observed following marine heatwave events. Climate Change Ecology, 3, 100046.

• Pinna, F., Caragnano, A., Piazzi, L., Ragazzola, F., Stipcich, P., Rindi, F., & Ceccherelli, G. (2022). The Mediterranean bioconstructor Lithophyllum stictiforme shows adaptability to future warming. Frontiers in Marine Science, 9.

• Pujol, C., Pérez-Santos, I., Barth, A., & Alvera Azcarate, A. (2022). Marine Heatwaves Offshore Central and South Chile: Understanding Forcing Mechanisms During the Years 2016-2017. Frontiers in Marine Science, 9.

• Resaikos, V., & Ceccherelli, G. (2022). Patrizia Stipcich1, Eugenia T. Apostolaki2, Niki Chartosia3, Pavlos Theofilos Efthymiadis2, Carlos E. Jimenez4, 5, Gabriella La Manna6, 7, Arianna Pansini1, Elena Principato8.

• Reyes, O., Manta, G., & Carrillo, L. (2022). Marine heatwaves and marine cold-spells on the Yucatan Shelf-break upwelling region. Continental Shelf Research, 239, 104707.

• Smith, K. E., Burrows, M. T., Hobday, A. J., King, N. G., Moore, P. J., Sen Gupta, A., ... & Smale, D. A. (2022). Biological Impacts of Marine Heatwaves. Annual Review of Marine Science, 15.

• Stipcich, P., Beca-Carretero, P., Álvarez-Salgado, X. A., Apostolaki, E. T., Chartosia, N., Efthymiadis, P. T., ... & Ceccherelli, G. (2022). Effects of high temperature and marine heat waves on seagrasses: Is warming affecting the nutritional value of Posidonia oceanica?. Marine Environmental Research, 105854.

• Stipcich, P., Marín-Guirao, L., Pansini, A., Pinna, F., Procaccini, G., Pusceddu, A., ... & Ceccherelli, G. (2022). Effects of Current and Future Summer Marine Heat Waves on Posidonia oceanica: Plant Origin Matters?. Front. Clim, 4, 844831.

• Stipcich, P., Pansini, A., Beca-Carretero, P., Stengel, D. B., & Ceccherelli, G. (2022). Field thermo acclimation increases the resilience of Posidonia oceanica seedlings to marine heat waves. Marine Pollution Bulletin, 184, 114230.

• Tassone, S. J., Besterman, A. F., Buelo, C. D., Ha, D. T., Walter, J. A., & Pace, M. L. (2022). Increasing heatwave frequency in streams and rivers of the United States. Limnology and Oceanography Letters.

• Tassone, S. J., Besterman, A. F., Buelo, C. D., Walter, J. A., & Pace, M. L. (2022). Co-occurrence of Aquatic Heatwaves with Atmospheric Heatwaves, Low Dissolved Oxygen, and Low pH Events in Estuarine Ecosystems. Estuaries and Coasts, 45(3), 707-720.

• Thoral, F., Montie, S., Thomsen, M. S., Tait, L. W., Pinkerton, M. H., & Schiel, D. R. (2022). Unravelling seasonal trends in coastal marine heatwave metrics across global biogeographical realms. Scientific reports, 12(1), 1-13.

• Wegscheider, B., Linnansaari, T., Monk, W. A., Ndong, M., Haralampides, K., St‐Hilaire, A., ... & Curry, R. A. (2022). Quantitative modelling of fish habitat in a large regulated river in a changing climate. Ecohydrology, 15(5), e2318.

• Wethey, D. S., & Woodin, S. A. (2022). Climate change and Arenicola marina: Heat waves and the southern limit of an ecosystem engineer. Estuarine, Coastal and Shelf Science, 276, 108015.

• Wolf, F., Seebass, K., & Pansch, C. (2022). The role of recovery phases in mitigating the negative impacts of marine heatwaves on the sea star Asterias rubens. Frontiers in Marine Science, 8, Art-Nr.

• Woolway, R. I., Albergel, C., Frölicher, T. L., & Perroud, M. (2022). Severe Lake Heatwaves Attributable to Human‐Induced Global Warming. Geophysical Research Letters, 49(4), e2021GL097031.

• Zhang, M., Yang, X., Cleverly, J., Huete, A., Zhang, H., & Yu, Q. (2022). Heat wave tracker: A multi-method, multi-source heat wave measurement toolkit based on Google Earth Engine. Environmental Modelling & Software, 147, 105255.

2021

• Abrahams, A., Schlegel, R. W., & Smit, A. J. (2021). A novel approach to quantify metrics of upwelling intensity, frequency, and duration. PLoS One, 16(7), e0254026.

• Abrahams, A., Schlegel, R. W., & Smit, A. J. (2021). Variation and change of upwelling dynamics detected in the world’s eastern boundary upwelling systems. Frontiers in Marine Science, 8, 626411.

• Arimitsu, M. L., Piatt, J. F., Hatch, S., Suryan, R. M., Batten, S., Bishop, M. A., ... & von Biela, V. R. (2021). Heatwave‐induced synchrony within forage fish portfolio disrupts energy flow to top pelagic predators. Global change biology, 27(9), 1859-1878.

• Beaudry, M. L. (2021). Analyses des vagues de chaleur survenues depuis le début du 20e siècle dans trois villes principales du sud-est du Canada (Doctoral dissertation, Université d'Ottawa/University of Ottawa).

• Benedetti-Cecchi, L. (2021). Complex networks of marine heatwaves reveal abrupt transitions in the global ocean. Scientific reports, 11(1), 1-11.

• Bove, C. B., Mudge, L., & Bruno, J. F. (2021). One Hundred and Fifty Years of Warming on Caribbean Coral Reefs. BioRxiv.

• Clutton, E. A., Alurralde, G., & Repolho, T. (2021). Early developmental stages of native populations of Ciona intestinalis under increased temperature are affected by local habitat history. Journal of Experimental Biology.

• Feng, M., Caputi, N., Chandrapavan, A., Chen, M., Hart, A., & Kangas, M. (2021). Multi-year marine cold-spells off the west coast of Australia and effects on fisheries. Journal of Marine Systems, 214, 103473.

• Heim, K. C., Thorne, L. H., Warren, J. D., Link, J. S., & Nye, J. A. (2021). Marine ecosystem indicators are sensitive to ecosystem boundaries and spatial scale. Ecological Indicators, 125, 107522.

• Hu, L. (2021). A global assessment of coastal marine heatwaves and their relation with coastal urban thermal changes. Geophysical Research Letters, 48(9), e2021GL093260.

• Kraufvelin, L. (2021). Identification of marine heatwaves in the Archipelago Sea and experimental testing of their impacts on the non-indigenous Harris mud crab.

• Minuti, J. J., Byrne, M., Hemraj, D. A., & Russell, B. D. (2021). Capacity of an ecologically key urchin to recover from extreme events: Physiological impacts of heatwaves and the road to recovery. Science of the Total Environment, 785, 147281.

• Pujol, C. (2021). Marine heatwaves offshore Central and South Chile: a global assessment and the case study of the year 2016.

• Reynaert, S., De Boeck, H. J., Verbruggen, E., Verlinden, M., Flowers, N., & Nijs, I. (2021). Risk of short‐term biodiversity loss under more persistent precipitation regimes. Global Change Biology, 27(8), 1614-1626.

• Santamaría, J., Golo, R., Cebrian, E., García, M., & Vergés, A. (2021). Stressful Conditions Give Rise to a Novel and Cryptic Filamentous Form of Caulerpa cylindracea. Frontiers in Marine Science, 8, 548679.

• Schlegel, R. W., Darmaraki, S., Benthuysen, J. A., Filbee-Dexter, K., & Oliver, E. C. (2021). Marine cold-spells. Progress in Oceanography, 198, 102684.

• Schlegel, R. W., Oliver, E. C., & Chen, K. (2021). Drivers of marine heatwaves in the Northwest Atlantic: The role of air–sea interaction during onset and decline. Frontiers in Marine Science, 8, 627970.

• Smith, K. E., Burrows, M. T., Hobday, A. J., Sen Gupta, A., Moore, P. J., Thomsen, M., ... & Smale, D. A. (2021). Socioeconomic impacts of marine heatwaves: Global issues and opportunities. Science, 374(6566), eabj3593.

• Sydeman, W. J., Schoeman, D. S., Thompson, S. A., Hoover, B. A., García-Reyes, M., Daunt, F., ... & Watanuki, Y. (2021). Hemispheric asymmetry in ocean change and the productivity of ecosystem sentinels. Science, 372(6545), 980-983.

• Thomsen, M. S., Mondardini, L., Thoral, F., Gerber, D., Montie, S., South, P. M., ... & Schiel, D. R. (2021). Cascading impacts of earthquakes and extreme heatwaves have destroyed populations of an iconic marine foundation species. Diversity and Distributions, 27(12), 2369-2383.

• Van Der Walt, K. A., Potts, W. M., Porri, F., Winkler, A. C., Duncan, M. I., Skeeles, M. R., & James, N. C. (2021). Marine Heatwaves Exceed Cardiac Thermal Limits of Adult Sparid Fish (Diplodus capensis, Smith 1884). Frontiers in Marine Science, 8, 801.

• Verdura, J., Santamaría, J., Ballesteros, E., Smale, D., Cefalì, M. E., Golo, R., ... & Cebrian, E. (2021). Local‐scale climatic refugia offer sanctuary for a habitat‐forming species during a marine heatwave. Journal of Ecology.

• Woolway, R. I., Anderson, E. J., & Albergel, C. (2021). Rapidly expanding lake heatwaves under climate change. Environmental Research Letters, 16(9), 094013.

• Woolway, R. I., Jennings, E., Shatwell, T., Golub, M., Pierson, D. C., & Maberly, S. C. (2021). Lake heatwaves under climate change. Nature, 589(7842), 402-407.

• Woolway, R. I., Kraemer, B. M., Zscheischler, J., & Albergel, C. (2021). Compound hot temperature and high chlorophyll extreme events in global lakes. Environmental Research Letters, 16(12), 124066.

2020

• Abrahams, A. (2020). Detecting patterns of upwelling variability in Eastern Boundary Upwelling Systems with special emphasis on the Benguela region (Doctoral dissertation, University of the Western Cape).

• Fumo, J. T., Carter, M. L., Flick, R. E., Rasmussen, L. L., Rudnick, D. L., & Iacobellis, S. F. (2020). Contextualizing marine heatwaves in the Southern California bight under anthropogenic climate change. Journal of Geophysical Research: Oceans, 125(5), e2019JC015674.

• Magel, C. L. (2020). Ecosystem Functions of Pacific Northwest Estuaries: The Role of Ocean and Watershed Drivers in Eelgrass and Coho Salmon Dynamics.

• Pegado, M. R., Santos, C. P., Raffoul, D., Konieczna, M., Sampaio, E., Maulvault, A. L., ... & Rosa, R. (2020). Impact of a simulated marine heatwave in the hematological profile of a temperate shark (Scyliorhinus canicula). Ecological Indicators, 114, 106327.

• Reynaert, S., De Boeck, H. J., Verbruggen, E., Verlinden, M., Flowers, N., & Nijs, I. (2020). Risk of short‐term biodiversity loss under more persistent precipitation regimes. Global Change Biology.

• Wegscheider, B., Linnansaari, T., Monk, W., Ndong, M., Haralampides, K., St-Hilaire, A., ... & Allen, R. (2020). Quantitative modelling of fish habitat under future regulated and hydro-climatically driven flow regimes in the Saint John River (New Brunswick, Canada). Quantitative modelling of existing and future fish habitat in the Saint John River, NB, Canada, 184.

2019

• Schlegel, R. W., Oliver, E. C., Hobday, A. J., & Smit, A. J. (2019). Detecting marine heatwaves with sub-optimal data. Frontiers in Marine Science, 6, 737.

• Westover, M. L. (2019). Biogeographical implications of climate change for an alpine mammal, the American pika.

• Zhao, Z., & Marin, M. (2019). A MATLAB toolbox to detect and analyze marine heatwaves. The Journal of Open Source Software, 4, 1124.

2018

• Barbeaux, S., Aydin, K., Fissel, B., Holsman, K., Laurel, B., Palsson, W., ... & Zador, S. (2018). Assessment of the Pacific cod stock in the Gulf of Alaska.

• Beebe, N. H. (2018). A Complete Bibliography of Publications in the Journal of Open Source Software.