2020
DOI: 10.1111/brv.12613
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Skeletal resorption in bryozoans: occurrence, function and recognition

Abstract: Skeletal resorption – the physiological removal of mineralised parts by an organism – is an important morphogenetic process in bryozoans. Reports of its occurrence and function across the phylum are patchy, however, and have not previously been synthesised. Here we show that resorption occurs routinely across a wide range of bryozoan clades, colony sizes, growth forms, ontogenetic stages, body wall types, skeletal ultrastructures and mineralogies. Beginning in the early Paleozoic, different modes and functions… Show more

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Cited by 9 publications
(8 citation statements)
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References 94 publications
(209 reference statements)
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“…This structure demonstrated an active process of mineralization acting on the fragmented surfaces, as previously described under laboratory conditions by Russo et al (1997). The ability of autotomy and resorption of mineral and organic skeletal components is typical in most marine phyla, including Cnidaria (Batson et al 2020). In the red coral skeletome, various matrix metallopeptidases and collagen-like proteins have been found (Le Roy et al 2021), and, due to the role they play in remodelling and mineralization processes, they may be also involved in the scleraxis resorption.…”
Section: Discussionmentioning
confidence: 99%
“…This structure demonstrated an active process of mineralization acting on the fragmented surfaces, as previously described under laboratory conditions by Russo et al (1997). The ability of autotomy and resorption of mineral and organic skeletal components is typical in most marine phyla, including Cnidaria (Batson et al 2020). In the red coral skeletome, various matrix metallopeptidases and collagen-like proteins have been found (Le Roy et al 2021), and, due to the role they play in remodelling and mineralization processes, they may be also involved in the scleraxis resorption.…”
Section: Discussionmentioning
confidence: 99%
“…Evidence supporting a hornerid origin of C. osheai includes: (1) eruption of occasional short functionally unilaminate branches, with distinct frontal and lateral autozooids (Figure 16a–c ); (2) lateral autozooids formed by exomural budding (Figure 16b,c ); (3) localized development of narrow, haphazard, branch‐like arrangements of autozooids seemingly “embedded” within the broader, roughly cylindrical main branch surfaces, surrounded by cancellate walls (Figure 16d ); and (4) in one case, an eruptive branch has a transversely oriented, incomplete skeletal abscission zone at its base (resorption‐mediated branch abscission is a near‐ubiquitous trait in other hornerids—Batson et al, 2020 ). If our interpretation is correct, the cancellus‐bearing orifice‐free walls surrounding the patches of autozooidal apertures may be homologous with the abfrontal wall of unilaminate hornerids.…”
Section: Discussionmentioning
confidence: 99%
“…The annual growth reported here for C. immersa requires the assumption that the colony grows continuously in length at the same rate throughout the year. This notion is unlikely to be true, because at times the colony may have to prioritise other important biological processes (Batson et al 2020;Smith and Key 2020), such that younger internodes have lower growth rates.…”
Section: Energy Distribution Within An Internodementioning
confidence: 99%
“…Newly formed internodes are likely to split their energy into primary calcification (i.e. calcium carbonate deposition distally), secondary calcification to strengthen the foundations of the new internode, skeletal resorption for the formation of the node and the formation and growth of the rhizooids (Batson et al 2020). Schafer et al (2006) stated that in the early stages of internode formation in C. sinuosa, the cryptocyst and interior walls are fully calcified, whereas the first zooid row on the new branch tends to be almost twice as long as the rest of the autozooids.…”
Section: Energy Distribution Within An Internodementioning
confidence: 99%