Polar microbioerosion patterns exemplified in Arctic and Antarctic barnacles

Bioerosion is the degradation of hard substrates by living organisms, primarily in marine environments. The process is an important component of the carbon cycle, it attributes to biosedimentary processes, and it gains attention as the “other ocean acidification problem” acknowledging the accelerati...

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Bibliographic Details
Main Author: Meyer, Neele
Other Authors: Freiwald, Andre, Halfar, Jochen
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Universität Bremen 2020
Subjects:
bioerosion
microbioerosion
endolithis
boring
ichnology
Arctic
Antarctic
Svalbard
Ross Sea
550
550 Earth sciences and geology
ddc:550
Frobisher Bay
Svalbard Archipelago
Antarc*
Antarctica
Antarktis*
Arktis*
Climate change
Foraminifera*
Ocean acidification
Online Access:https://media.suub.uni-bremen.de/handle/elib/4636
https://doi.org/10.26092/elib/433
https://nbn-resolving.org/urn:nbn:de:gbv:46-elib46369
Description
Summary:Bioerosion is the degradation of hard substrates by living organisms, primarily in marine environments. The process is an important component of the carbon cycle, it attributes to biosedimentary processes, and it gains attention as the “other ocean acidification problem” acknowledging the acceleration of bioerosion as a consequence of the global climate change. Bioerosion leaves traces in the substrate, which serve as a useful tool to investigate palaeobathymetry or -temperature. Most bioerosion studies were conducted at low latitudes, with a focus on shallow water depths. Few studies were performed in the cold-temperate regions, but almost none at the highest latitudes in the polar seas, thus setting the scene for this doctoral thesis exploring traces of microbial bioerosion in the polar realm. Acorn barnacles from three polar study sites, spanning a wide bathymetrical range, were used as a hard substrate to visualize the microbioerosion traces in their shells by means of scanning electron microscopy of epoxy resin casts. Samples from the Arctic Svalbard archipelago were from the photic intertidal to aphotic water depths of 125 m; from the Frobisher Bay, Canadian Arctic, barnacles from 62 to 94 m were examined; from the Ross Sea, Antarctica, samples originated from 37 m to 1680 m. Each study area was investigated by semi-quantifying and statistically evaluating the ichnodiversity regarding a bathymetric trend and latitudinal gradient. In total, 29 different microendolithic traces formed by cyanobacteria (4), chlorophytes (2), rhodophytes (1), sponges (1), fungi (12), foraminifera (3), bacteria (1), unknown microorganisms (4), and cirripeds (1, macroboring) were recorded in more than 200 samples. Three traces were identified at all three sites, eight traces were found exclusively in Svalbard, one in Frobisher Bay, eight in the Ross Sea, and three were restricted to the Arctic. The inferred trace-makers were mainly organotrophs and expectedly dominated by fungi, as they are very robust and thrive even under harsh ...

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