Info: Zenodo’s user support line is staffed on regular business days between Dec 23 and Jan 5. Response times may be slightly longer than normal.

Published November 11, 2020 | Version v1
Dataset Open

Effects of future climate on coral-coral competition

  • 1. Georgia Institute of Technology
  • 2. Smithsonian Marine Station

Description

As carbon dioxide (CO 2 ) levels increase, coral reefs and other marine systems will be affected by the joint stressors of ocean acidification (OA) and warming. The effects of these two stressors on coral physiology are relatively well studied, but their impact on biotic interactions between corals are poorly understood. While coral-coral interactions are less common on modern reefs, it is important to document the nature of these interactions to better inform restoration strategies in the face of climate change. Using a mesocosm study, we evaluated whether the combined effects of ocean acidification and warming alter the competitive interactions between the common coral Porites astreoides and two other mounding corals ( Montastraea cavernosa or Orbicella faveolata ) common in the Caribbean. After 7 days of direct contact, P. astreoides suppressed the photosynthetic potential of M. cavernosa by 100% in areas of contact under both present (~28.5°C and ~400 μatm p CO 2 ) and predicted future (~30.0°C and ~1000 μatm p CO 2 ) conditions. In contrast, under present conditions M. cavernosa reduced the photosynthetic potential of P. astreoides by only 38% in areas of contact, while under future conditions reduction was 100%.  A similar pattern occurred between P. astreoides and O. faveolata at day 7 post contact, but by day 14, each coral had reduced the photosynthetic potential of the other by 100% at the point of contact, and O. faveolata was generating larger lesions on P. astreoides than the reverse.  In the absence of competition, OA and warming did not affect the photosynthetic potential of any coral. These results suggest that OA and warming can alter the severity of initial coral-coral interactions, with potential cascading effects due to corals serving as foundation species on coral reefs.

Notes

The second experiment ran twice as long as the first experiment, so there are more data points. Some alkalinity samples were lost in the process due to issues with the titrator.

Funding provided by: Link Foundation
Crossref Funder Registry ID: http://dx.doi.org/10.13039/100005238
Award Number:

Funding provided by: Teasley Endowment*
Crossref Funder Registry ID:
Award Number:

Funding provided by: Smithsonian Institution
Crossref Funder Registry ID: http://dx.doi.org/10.13039/100000014
Award Number:

Funding provided by: Teasley Endowment
Crossref Funder Registry ID:

Files

alkalinity_data.csv

Files (50.4 kB)

Name Size Download all
md5:ffe82231886022fa8ac7f6bfa30e205c
5.9 kB Preview Download
md5:af014c2f4a9ed59474580ae3265e76b4
738 Bytes Preview Download
md5:c5ea78349f62269968569760a15bff47
2.2 kB Preview Download
md5:ade645e322a420e755ae64317784dade
5.2 kB Preview Download
md5:56a280a6be9127577911197365f25508
7.8 kB Preview Download
md5:011a0ee114bb0822bf9b584a91894d8c
15.0 kB Download
md5:f68137a020315d82099e54cd627f5c94
13.7 kB Preview Download