Nutritional quality of giant kelp declines due to warming ocean temperatures

Lowman, Heili E.; Emery, Kyle A.; Dugan, Jenifer E.; Miller, Robert J.

doi:10.1111/oik.08619

Cited by 14 publications

(15 citation statements)

References 137 publications

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“…Because all of the contributions considered at least one explicit variable to quantify the nutritional quality of the resource, none of them falls within the cluster of 'undefined food quality' (in green). Five of the articles of the Special issue(Chouvelon et al 2022, Lowman et al 2022, Mathieu-Resuge et al 2022, Sentis et al 2022, van Deurs et al 2022) fall within the cluster aquatic ecosystem/ stoichiometry-lipids/trophodynamics-fitness, a proportion that mirrors well the actual predominance of those themes within the overall research (Fig.2c). Two more articles of this Special issue (LeGall et al 2022, Zaguri et al 2022) belong to the cluster linking the nutritional geometry to physiological aspects, which is current ranked second in term of contribution to the overall research.…”

mentioning

confidence: 78%

“…‐ As generally observed in ecosystem ecology, evolutionary questions are still too rarely explicitly tested in trophic ecology investigations. Despite a large array of studies have observed and discussed the evolutionary tenets at play behind the selection of consumers nutritional requirements (see for example Hudson et al 2022 in this issue), the inclusion of such research questions in the general understanding of ecosystem functioning remains limited.‐ Finally, Lowman et al (2022) illustrate that the potential nutritional quality of basal producers can be significantly altered by global warming. In the context or the current global changes and considering the multiple stressors organisms are exposed to, understanding the causes and the consequences of changes in basal resource quality in a multistressor context (concomitant changes in temperature, nutrient and water availability, presence of pollutants …) is an urgent need, as much in terms of prediction of future ecosystem trajectories as in terms of goods and services provision by nature for humanity.…”

Section: Current Status and Perspectives Of The Research On Nutrition...mentioning

confidence: 99%

“…Biomechanical parameters (including all physical defenses) used to be largely considered in the early 90s but the relative use of this parameter is clearly declining in the recent years. The articles published in this special issue are well representative of these trends since one third of the published articles question resources quality through the consideration of resources elemental content (Chouvelon et al 2022, Lowman et al 2022, Sentis et al 2022), while a second third focuses on resources macro‐nutrient contents, alone (Le Gall et al 2022, Zaguri et al 2022) or in association with fatty acids (van Deurs et al 2022). Finally, three articles specifically focus on fatty acids/lipids (Hudson et al 2022, Leal et al 2022, Mathieu‐Resuge et al 2022).…”

Section: Current Status and Perspectives Of The Research On Nutrition...mentioning

confidence: 99%

“…‐ Finally, Lowman et al (2022) illustrate that the potential nutritional quality of basal producers can be significantly altered by global warming. In the context or the current global changes and considering the multiple stressors organisms are exposed to, understanding the causes and the consequences of changes in basal resource quality in a multistressor context (concomitant changes in temperature, nutrient and water availability, presence of pollutants …) is an urgent need, as much in terms of prediction of future ecosystem trajectories as in terms of goods and services provision by nature for humanity.…”

Section: Current Status and Perspectives Of The Research On Nutrition...mentioning

confidence: 99%

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Special issue: Questioning the roles of resources nutritional quality in ecology

Danger

Bec

Spitz

et al. 2022

Oikos

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Our understanding of ecosystem functioning is strongly linked to the study of predator–prey relationships and food web structures. However, trophic ecology has often focused on identifying taxonomic relationships and quantifying the biomass or energy ingested by consumers, but has often failed to integrate the importance of the nutritional quality of resources in ecological dynamics. Underlying this gap is the multi‐dimensional nature of resource quality which has hampered any consensus on the definition of resource nutritional quality. In this special issue, we aimed at gathering a subset of articles exemplifying the diversity of variables by which resources quality is quantified, the diversity of research topics that can be tackled in ecology – from physiological or evolutionary aspects to ecosystem processes – and propose some perspectives on the integration of nutritional quality within broader ecological concepts. Using a semi‐automated literature analysis, we map the current landscape of the ‘resources nutritional quality' research of the last 30 years. We depict how it has been quantified through physical, biological or chemical indicators, the use of these parameters being largely dependent on the type of ecosystem studied and on the investigated ecological process. We then position the articles published in this special issue of Oikos within this landscape, showing they cover a small but relatively well representative subset of the domains of resources quality‐related issues. Articles in this special issue browse a range of individual and population‐level approaches (embracing evolutionary questions) to community related questions, include methodological issues and ecosystem‐wide approaches using trophic quality indicators as tracers of resources origin. Based on these studies and on the literature review, we identify a non‐exhaustive list of challenges and perspectives of research that we consider of highest priority in the large topic of trophic ecology.

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mentioning

confidence: 78%

Section: Current Status and Perspectives Of The Research On Nutrition...mentioning

confidence: 99%

Section: Current Status and Perspectives Of The Research On Nutrition...mentioning

confidence: 99%

Section: Current Status and Perspectives Of The Research On Nutrition...mentioning

confidence: 99%

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Special issue: Questioning the roles of resources nutritional quality in ecology

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Bec

Spitz

et al. 2022

Oikos

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“…The nutritional quality of wrack obviously plays a critical role in determining feeding choices in macroinvertebrate detritivores on beaches Duarte et al, 2010bDuarte et al, , 2011Duarte et al, , 2014Lowman et al, 2021), similar to mesograzers (macrofauna grazing on living macrophytes) in subtidal ecosystems (Duffy & Hay, 1991). The protein content of algae is considered a key trait in determining their nutritional quality as food sources (Cruz-Rivera & Hay, 2000), similar to the case for plant consumers in other systems (White, 1993), and appears selectively to influence feeding by detritivores on sandy beaches (e.g.…”

Section: Variablementioning

confidence: 99%

The role of inputs of marine wrack and carrion in sandy‐beach ecosystems: a global review

et al. 2022

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Sandy beaches are iconic interfaces that functionally link the ocean with the land via the flow of organic matter from the sea. These cross-ecosystem fluxes often comprise uprooted seagrass and dislodged macroalgae that can form substantial accumulations of detritus, termed 'wrack', on sandy beaches. In addition, the tissue of the carcasses of marine animals that regularly wash up on beaches form a rich food source ('carrion') for a diversity of scavenging animals. Here, we provide a global review of how wrack and carrion provide spatial subsidies that shape the structure and functioning of sandy-beach ecosystems (sandy beaches and adjacent surf zones), which typically have little in situ primary production. We also examine the spatial scaling of the influence of these processes across the broader land-and seascape, and identify key gaps in our knowledge to guide future research directions and priorities. Large quantities of detrital kelp and seagrass can flow into sandy-beach ecosystems, where microbial decomposers and animals process it. The rates of wrack supply and its retention are influenced by the oceanographic processes that transport it, the geomorphology and landscape context of the recipient beaches, and the condition, life history and morphological characteristics of the macrophyte taxa that are the ultimate source of wrack. When retained in beach ecosystems, wrack often creates hotspots of microbial metabolism, secondary productivity, biodiversity, and nutrient remineralization. Nutrients are produced during wrack breakdown, and these can return to coastal waters in surface flows (swash) and aquifers discharging into the subtidal surf. Beach-cast kelp often plays a key trophic role, being an abundant and preferred food source for mobile, semi-aquatic invertebrates that channel imported algal matter to predatory invertebrates, fish, and birds. The role of beach-cast marine carrion is likely to be underestimated, as it can be consumed rapidly by highly mobile scavengers (e.g. foxes, coyotes, raptors, vultures). These consumers become important vectors in transferring marine productivity inland, thereby linking marine and terrestrial ecosystems. Whilst deposits of organic matter on sandy-beach ecosystems underpin a range of ecosystem functions and services, they can be at variance with aesthetic perceptions resulting in widespread activities, such as 'beach cleaning and grooming'. This practice diminishes the energetic base of food webs, intertidal fauna, and biodiversity. Global declines in seagrass beds and kelp forests (linked to global warming) are predicted to cause substantial reductions in the amounts of marine organic matter reaching many beach ecosystems, likely causing flow-on effects for food webs and biodiversity. Similarly, future sea-level rise and increased storm frequency are likely to alter profoundly the physical attributes of beaches, which in turn can change the rates at which beaches retain and process the influxes of wrack and animal carcasses. Conservation of the multi-faceted eco...

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High‐latitude kelps and future oceans: A review of multiple stressor impacts in a changing world

Drakard

Hollarsmith

Stekoll

2023

Ecology and Evolution

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Kelp forests worldwide are threatened by both climate change and localized anthropogenic impacts. Species with cold-temperate, subpolar, or polar distributions are projected to experience range contractions over the coming decades, which may be exacerbated by climatic events such as marine heatwaves and increased freshwater and sediment input from rapidly contracting glaciers. The northeast Pacific has an extensive history of harvesting and cultivating kelps for subsistence, commercial, and other uses, and, therefore, declines in kelp abundance and distributional shifts will have significant impacts on this region. Gaps in our understanding of how coldtemperate kelp species respond to climate stressors have limited our ability to forecast the status of kelp forests in future oceans, which hampers conservation and management efforts. Here, we conducted a structured literature review to provide a synthesis of the impacts of multiple climate-related stressors on kelp forests in the northeast Pacific, assess existing knowledge gaps, and suggest potential research priorities. We chose to focus on temperature, salinity, sediment load, and light as the stressors most likely to vary and impact kelps as climate change progresses. Our results revealed biases in the existing literature toward studies investigating the impacts of temperature, or temperature in combination with light. Other stressors, particularly salinity and sediment load, have received much less focus despite rapidly changing conditions in high-latitude regions. Furthermore, multiple stressor studies appear to focus on kelp sporophytes, and it is necessary that we improve our understanding of how kelp microstages will be affected by stressor combinations. Finally, studies that investigate the potential of experimental transplantation or selective cultivation of genotypes resilient to environmental changes are lacking and would be useful for the conservation of wild populations and the seaweed aquaculture industry.

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Nutritional quality of giant kelp declines due to warming ocean temperatures

Cited by 14 publications

References 137 publications

Special issue: Questioning the roles of resources nutritional quality in ecology

Special issue: Questioning the roles of resources nutritional quality in ecology

The role of inputs of marine wrack and carrion in sandy‐beach ecosystems: a global review

High‐latitude kelps and future oceans: A review of multiple stressor impacts in a changing world

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