Mapping Antarctic Suspension Feeder Abundances and Seafloor Food-Availability, and Modeling Their Change After a Major Glacier Calving

Jansen, Jan; Hill, Nicole; Dunstan, Piers K.; Cougnon, Eva A.; Johnson, Craig R.

doi:10.3389/fevo.2018.00094

Cited by 8 publications

(10 citation statements)

References 47 publications

(82 reference statements)

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“…This would therefore restrict the bloom to the eastern part of our study zone in these years, where we found significant higher biomass. A similar 50% to 80% increase in SIC (relative to the precalving period) was also observed (Campagne et al, 2015; Jansen et al, 2018) in the Mertz polynya. Interannual variability in SIC has been reported by Fraser et al (2019), where they demonstrated that fast ice regulates the size and the total sea ice production in the Cape Darnley polynya.…”

Section: Discussionsupporting

confidence: 76%

“…Iron is thought to be particularly enriched in the mCDW, as the mCDW comes in contact with the shelf before intruding between 100 and 300 m in the polynya (Moreau et al, 2019; Silvano et al, 2017). Biomass and net community production doubled in the shallow waters (<500 m) over the continental shelf in the eastern part of the polynya after calving (Jansen et al, 2018; Shadwick et al, 2017). Our results follow these previous observations.…”

Section: Discussionmentioning

confidence: 99%

“…SIC increased, especially between 140°E and 142°E, where the B9B grounded (Dragon et al, 2014). This is not the case where the MGT calved and further east (Jansen et al, 2018). It was suggested that in this area, the breakup of the sea ice postcalving occurs later in the year.…”

Section: Discussionmentioning

confidence: 99%

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Calving Event Led to Changes in Phytoplankton Bloom Phenology in the Mertz Polynya, Antarctica

et al. 2020

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Polynyas are subject to variability in winds and ocean circulation and are important sites of ecological productivity. In February 2010, the B09B iceberg collided with the Mertz Glacier Tongue (MGT), calving a 78 × 40-km giant iceberg which modified the icescape and primary productivity of the Mertz polynya. In this study, we use satellite ocean color and sea ice concentration to investigate the variability, trends, and drivers of phytoplankton blooms in the Mertz polynya since 1997. During the bloom, over 21 years, we found (i) a later ice retreat time, (ii) an increase in sea ice concentration, (iii) a decrease in open-water period, (iv) a later bloom start, and (v) a decrease in bloom duration. Our results suggest that major postcalving changes in the physical characteristics of the polynya, mainly its icescape, are the primary drivers of phytoplankton phenology. More specifically, the MGT calving event resulted in significant seasonal and regional changes, with higher eastern chl-a and mean summer chl-a postcalving. While satellite data are useful to study long-term variability in these inhospitable areas, they only focus on the ocean surface and are obscured by ice and clouds. Additional subsurface parameters from seal tags, gliders and moorings in the southernmost polar regions would strengthen our comprehension of phytoplankton and physical changes in ocean dynamics that may have far-reaching consequences, from global circulation to carbon export. Plain Language Summary Polynyas are the most productive areas in the Southern Ocean and play a role in the global oceanic circulation. Evaluating how unexpected and dramatic changes impact biology and chemical cycles in these areas is critical to understand the potential future impact such events may cause on a larger scale. In this paper, we investigated the impact of the calving of a major glacier tongue in the Mertz polynya on the phytoplankton bloom using satellite data. Significant changes happened after the calving event: (i) the bloom duration and open water period time decreased, (ii) the start of the bloom and the retreat of sea ice were delayed, and (iii) the chlorophyll-a (the major phytoplankton pigment which indicates the phytoplankton biomass) and the sea ice concentration increased. These findings show that natural changes can impact the timing of phytoplankton growth that may have consequences for the rest of the ecosystem, from Antarctic krill to baleen whales.

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Section: Discussionsupporting

confidence: 76%

Section: Discussionmentioning

confidence: 99%

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Calving Event Led to Changes in Phytoplankton Bloom Phenology in the Mertz Polynya, Antarctica

et al. 2020

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“…Modeling work indicates widespread suspension feeder cover on the banks (Jansen et al. ), and distinct communities of benthic macroinvertebrates particularly along the steep edges of the banks and the coastal and continental slopes (Jansen et al. ).…”

Section: Methodsmentioning

confidence: 99%

“…Diverse and abundant benthic macrofaunal communities are found along the shelf-break and on the shallower section of the shelf between 200 and 600 m . Modeling work indicates widespread suspension feeder cover on the banks (Jansen et al 2018a), and distinct communities of benthic macroinvertebrates particularly along the steep edges of the banks and the coastal and continental slopes (Jansen et al 2018b). A more detailed descriptive analyses of the fish community inhabiting the George V shelf can be found in Causse et al (2011), and a detailed description of the benthic invertebrate communities in Post et al (2011).…”

Section: Study Areamentioning

confidence: 99%

Integrated assessment of the spatial distribution and structural dynamics of deep benthic marine communities

Jansen

Dunstan

Hill

et al. 2020

Ecological Applications

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Characterizing the spatial distribution and variation of species communities and validating these characteristics with data from the field are key elements for an ecosystem‐based approach to management. However, models of species distributions that yield community structure are usually not linked to models of community dynamics, constraining understanding and management of the ecosystem, particularly in data‐poor regions. Here we use a qualitative network model to predict changes in Antarctic benthic community structure between major marine habitats characterized largely by seafloor depth and slope, and use multivariate mixture models of species distributions to validate the community dynamics. We then assess how future increases in primary production associated with anticipated loss of sea‐ice may affect the ecosystem. Our study shows how both spatial and structural features of ecosystems in data‐poor regions can be analyzed and possible futures assessed, with direct relevance for ecosystem‐based management.

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Benthic habitat mapping: A review of three decades of mapping biological patterns on the seafloor

Misiuk,

Brown

2024

Estuarine, Coastal and Shelf Science

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Mapping Antarctic Suspension Feeder Abundances and Seafloor Food-Availability, and Modeling Their Change After a Major Glacier Calving

Cited by 8 publications

References 47 publications

Calving Event Led to Changes in Phytoplankton Bloom Phenology in the Mertz Polynya, Antarctica

Calving Event Led to Changes in Phytoplankton Bloom Phenology in the Mertz Polynya, Antarctica

Integrated assessment of the spatial distribution and structural dynamics of deep benthic marine communities

Benthic habitat mapping: A review of three decades of mapping biological patterns on the seafloor

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