Temperature, phenology, and turf macroalgae drive seascape change: Connections to mid‐trophic level species

Dijkstra, Jennifer A.; Litterer, Amber; Mello, Kristen; O'Brien, Brandon S.; Rzhanov, Yuri

doi:10.1002/ecs2.2923

Cited by 16 publications

(15 citation statements)

References 61 publications

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“…Nonetheless, the possibility exists that changing ocean and benthic community conditions associated with climate change delivered and enabled this new seaweed to establish and then thrive on PHA reefs. Although studies documenting changes in invasive seaweed distributions with climate change are limited, there is increasing evidence that climate change-related range shifts in seaweed distributions are likely to occur [ 52 ], and that benthic habitat transformations related to climate change increase the abundance of invasive seaweeds [ 53 ].…”

Section: Discussionmentioning

confidence: 99%

Taxonomic determination of the cryptogenic red alga, Chondria tumulosa sp. nov., (Rhodomelaceae, Rhodophyta) from Papahānaumokuākea Marine National Monument, Hawai‘i, USA: A new species displaying invasive characteristics

Sherwood

Huisman²,

Paiano

et al. 2020

PLoS ONE

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Survey cruises by the National Oceanic and Atmospheric Administration (NOAA) in 2016 and 2019 yielded specimens of an undetermined red alga that rapidly attained alarming levels of benthic coverage at Pearl and Hermes Atoll, Papahānaumokuākea Marine National Monument, Hawaiʻi. By 2019 the seaweed had covered large expanses on the northeast side of the atoll with mat-like, extensive growth of entangled thalli. Specimens were analyzed using light microscopy and molecular analysis, and were compared to morphological descriptions in the literature for closely related taxa. Light microscopy demonstrated that the specimens likely belonged to the rhodomelacean genus Chondria , yet comparisons to taxonomic literature revealed no morphological match. DNA sequence analyses of the mitochondrial COI barcode marker, the plastidial rbc L gene, and the nuclear SSU gene confirmed its genus-level placement and demonstrated that this alga was unique compared to all other available sequences. Based on these data, this cryptogenic seaweed is here proposed as a new species: Chondria tumulosa A.R.Sherwood & J.M.Huisman sp. nov. Chondria tumulosa is distinct from all other species of Chondria based on its large, robust thalli, a mat-forming tendency, large axial diameter in mature branches (which decreases in diameter with subsequent orders of branching), terete axes, and bluntly rounded apices. Although C . tumulosa does not meet the criteria for the definition of an invasive species given that it has not been confirmed as introduced to Pearl and Hermes Atoll, this seaweed is not closely related to any known Hawaiian native species and is of particular concern given its sudden appearance and rapid increase in abundance in the Papahānaumokuākea Marine National Monument; an uninhabited, remote, and pristine island chain to the northwest of the Main Hawaiian Islands.

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Section: Discussionmentioning

confidence: 99%

Taxonomic determination of the cryptogenic red alga, Chondria tumulosa sp. nov., (Rhodomelaceae, Rhodophyta) from Papahānaumokuākea Marine National Monument, Hawai‘i, USA: A new species displaying invasive characteristics

Sherwood

Huisman²,

Paiano

et al. 2020

PLoS ONE

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“…Other studies in the region highlighted that the increased hydrodynamism caused by the outflow, with the ensuing increase in resuspension of sediments, could affect macrobenthic assemblages nearby the effluent (Marano et al, 2000). The proliferation of filamentous algae at I, and found in other areas subjected to thermal discharge (e.g., Choi, 2008), can be interpreted as a symptom of generalized environmental stress caused by the increase in seawater temperature (Johnson et al, 2017;Dijkstra et al, 2019), turbidity and sedimentation which favored this group of tolerant and opportunistic algae (Airoldi, 1998).…”

Section: Discussionmentioning

confidence: 99%

The impact assessment of thermal pollution on subtidal sessile assemblages: a case study from Mediterranean rocky reefs

Bevilacqua

Clara

Terlizzi

2020

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Coastal power plants generally use seawater as cooling fluid, discharging heated waters into the sea after the cooling process. The ensuing increase in seawater temperature could affect the marine biota in the nearby areas, causing alterations at different level of biological organization, from individuals to populations and assemblages. In the Mediterranean Sea, few attempts have been made to assess the effects of this point sources of thermal pollution, especially on rocky habitats. Here, we investigated the putative impact of a thermal effluent from one of the largest European coal-fired coastal power plants on sessile assemblages of subtidal rocky reefs. Sessile assemblages on rocky substrates were photographically sampled at one location near the effluent (I), and at two control locations (Cs) virtually unaffected by thermal discharge. An asymmetrical after-control impact experimental design was employed to test the hypothesis that the thermal discharge significantly modified sessile assemblages at I if compared to Cs. We detected significant differences in assemblages at I versus Cs, indicating a clear effect of the effluent on assemblage structure. Such differences were mostly due to shift in dominance among macroalgae between I and Cs, which likely depended on different tolerance limits of species to increased seawater temperature and other sources of disturbance associated to the effluent, such as increased sedimentation rates and water turbidity. Our findings stressed the need for further investigations of the impact of 2 thermal effluents on marine communities, considering the potential synergistic effects of climate change especially in the Mediterranean Sea.

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“…Dijkstra et al . (2019, see their Fig. 1) demonstrated waves of colonization of invasive algae into Bioregion 1 in the 1990s, which was correlated at their sites with reductions in S. latissima and Chondrus crispu s Stackhouse 1797 (Irish moss).…”

Section: Resilience Of the Aquaculture Industrymentioning

confidence: 92%

“…In this regard, Dijkstra et al . (2019) described apparently diminished abundance of kelps at the southern edge of Bioregion 1 and a large increase in filamentous red algae, including the invasive Dasysiphonia japonica (Yendo) H.‐S.Kim 2012 that may diminish habitat for fish and invertebrates.…”

Section: Resilience Of the Aquaculture Industrymentioning

confidence: 99%

Resilience of cold water aquaculture: a review of likely scenarios as climate changes in the Gulf of Maine

Bricknell

Birkel

Brawley

et al. 2020

Reviews in Aquaculture

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Climate change is one of the biggest challenges facing development and continuation of sustainable aquaculture in temperate regions. We primarily consider the ecological and physical resilience of aquaculture in the Gulf of Maine (GoM), where a thriving industry includes marine algae, extensive and intensive shellfish aquaculture, and a well-established Atlantic salmon industry, as well as the infrastructure required to support these economically important ventures. The historical record of sea surface temperature in the GoM, estimated from gridded, interpolated in situ measurements, shows considerable interannual and decade-scale variability superimposed on an overall warming trend. Climate model projections of sea surface temperature indicate that the surface waters in the GoM could warm 0.5-3.5°C beyond recent values by the year 2100. This suggests that, while variability will continue, anomalous warmth of marine heatwaves that have been observed in the past decade could become the norm in the GoM ca. 2050, but with the most significant impacts to existing aquaculture along the southernmost region of the coast. We consider adaptations leading to aquacultural resilience despite the effects of warming, larger numbers of harmful nonindigenous species (including pathogens and parasites), acidification, sea-level rise, and more frequent storms and storm surges. Some new species will be needed, but immediate attention to adapt existing species (e.g. preserve/define wild biodiversity, breed for temperature tolerance and incorporate greater husbandry) and aquaculture infrastructure can be successful. We predict that these measures and continued collaboration between industry, stakeholders, government and researchers will lead to sustaining a vibrant working waterfront in the GoM.

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Temperature, phenology, and turf macroalgae drive seascape change: Connections to mid‐trophic level species

Cited by 16 publications

References 61 publications

Taxonomic determination of the cryptogenic red alga, Chondria tumulosa sp. nov., (Rhodomelaceae, Rhodophyta) from Papahānaumokuākea Marine National Monument, Hawai‘i, USA: A new species displaying invasive characteristics

Taxonomic determination of the cryptogenic red alga, Chondria tumulosa sp. nov., (Rhodomelaceae, Rhodophyta) from Papahānaumokuākea Marine National Monument, Hawai‘i, USA: A new species displaying invasive characteristics

The impact assessment of thermal pollution on subtidal sessile assemblages: a case study from Mediterranean rocky reefs

Resilience of cold water aquaculture: a review of likely scenarios as climate changes in the Gulf of Maine

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