Morphometric and allometric rules of polyp's landscape in regular and chimeric coral colonies of the branching species Stylophora pistillata

Gabriele Guerrini, Dor Shefy, Nadav Shashar, Shai Shafir, Baruch Rinkevich

Research output: Contribution to journalArticlepeer-review

Abstract

Background: Most studies on architectural rules in corals have focused on the branch and the colony level, unveiling a variety of allometric rules. Working on the branching coral Stylophora pistillata, here we further extend the astogenic directives of this species at the polyp level, to reveal allometric and morphometric rules dictating polyps' arrangement. Results: We identified a basic morphometric landscape as a six-polyp circlet developed around a founder polyp, with established distances between polyps (six equilateral triangles), reflecting a strong genetic-based background vs high plasticity on the population level. Testing these rules in regular and chimeric S. pistillata colonies, we revealed similar morphometric/allometric rules developed via a single astogenic pathway. In regular colonies, this pathway was driven by the presence/absence of intra-circlet budding polyps, while in chimeras, by the distances between the two founder polyps. In addition, we identified the intra-circlet budding as the origin of first branching, if BPC distances are kept <1.09 ± 0.25 mm. Conclusions: The emerged allometric/morphometric rules indicate the existence of a positional information paradigm for polyps' landscape distribution, where each polyp creates its own positional field of morphogen gradients through six inductive sites, thus forming six positional fields for the development of the archetypal “six-polyp crown”.

Original languageEnglish
Pages (from-to)652-668
Number of pages17
JournalDevelopmental Dynamics
Volume250
Issue number5
DOIs
StatePublished - May 2021
Externally publishedYes

Bibliographical note

Funding Information:
We thank the Interuniversity Institute for Marine Science in Eilat for hospitality and logistical support, the Nature and Parks Authority, Israel, for the permit (41870/2018). We are also grateful to Federica Scucchia for helpful comments and to G. Paz for his help in preparing the illustrations. This study was supported by the AID‐MERC (M33‐001), by the Israeli‐French high council for scientific & technological research program (Maïmonide‐Israel) and by the North American Friends of IOLR (NAF/IOLR). Gabriele Guerrini and Dor Shefy were supported by fellowships from Ben Gurion University, the Eilat Campus.

Funding Information:
We thank the Interuniversity Institute for Marine Science in Eilat for hospitality and logistical support, the Nature and Parks Authority, Israel, for the permit (41870/2018). We are also grateful to Federica Scucchia for helpful comments and to G. Paz for his help in preparing the illustrations. This study was supported by the AID-MERC (M33-001), by the Israeli-French high council for scientific & technological research program (Ma?monide-Israel) and by the North American Friends of IOLR (NAF/IOLR). Gabriele Guerrini and Dor Shefy were supported by fellowships from Ben Gurion University, the Eilat Campus.

Publisher Copyright:
© 2020 American Association of Anatomists

Keywords

  • S. pistillata
  • allometry
  • chimera
  • coral
  • morphometry
  • polyps' landscape
  • Anthozoa/growth & development
  • Animals
  • Coral Reefs

ASJC Scopus subject areas

  • Developmental Biology

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