Abstract
Throughout the Galápagos, differences in coral reef development and coral population dynamics were evaluated by monitoring populations from 2000–2019, and environmental parameters (sea temperatures, pH, NO 3 − , PO 4 3− ) from 2015–19. The chief goal was to explain apparent coral community differences between the northern (Darwin and Wolf) and southern (Sta. Cruz, Fernandina, San Cristóbal, Española, Isabela) islands. Site coral species richness was highest at Darwin and Wolf. In the three most common coral taxa, a declining North (N)-South (S) trend in colony sizes existed for Porites lobata and Pocillopora spp., but not for Pavona spp . Frequent coral recruitment was observed in all areas. Algal competition was highest at Darwin, but competition by bioeroding sea urchins and burrowing fauna (polychaete worms, bivalve mollusks) increased from N to S with declining coral skeletal density. A biophysical model suggested strong connectivity among southern islands with weaker connectivity to Wolf and even less to Darwin. Also, strong connectivity was observed between Darwin and Wolf, but from there only intermittently to the south. From prevailing ocean current trajectories, coral larvae from Darwin and Wolf drift primarily towards Malpelo and Cocos Islands, some reaching Costa Rica and Colombia. Mean temperature, pH, and PO 4 3− declined from N to S. Strong thermocline shoaling, especially in the warm season, was observed at most sites. A single environmental factor could not explain the variability in observed coral community characteristics, with minimum temperature, pH and nutrient levels the strongest determinants. Thus, complex environmental determinants combined with larval connectivity patterns may explain why the northern Galápagos Islands (Darwin, Wolf) have higher coral richness and cover and also recover more rapidly than central/southern islands after region-wide disturbances. These northern islands are therefore potentially of critical conservation importance as important reservoirs of regional coral biodiversity and source of larvae.
| Original language | American English |
|---|---|
| Article number | 10322 |
| Journal | Scientific Reports |
| Volume | 9 |
| DOIs | |
| State | Published - Jul 16 2019 |
Bibliographical note
Publisher Copyright:© 2019, The Author(s).
Funding
We are grateful to The Galapagos National Park Directorate (GNPD) for their support of this research. This publication is contribution number 2264 of the Charles Darwin Foundation for the Galapagos Islands. The 2007 field work was funded by the Darwin Initiative via a grant to Terry Dawson, who is thanked for inviting us to participate, and in 2012 by the Khaled bin Sultan Living Oceans Foundation. Further funding by Darwin Initiative, Conservation International-Ecuador (Galápagos program and CI-ETPS), The Leona M. and Harry B. Helmsley Charitable Trust, and the Walton Family Foundation to the Eastern Tropical Pacific Seascape Transition Phase (CI 2014-560) is greatly appreciated. NSU allowed the use of restricted research funds. P.W. Glynn acknowledges U.S. National Science Foundation support, grants OCE-1447306, OCE-9314798 and earlier awards. We thank K. Collins and S. Steiner for assistance with field work. Capitan Vico and the crew of RV Queen Mabel offered steadfast support through all kinds of inclement weather. B. Riegl appreciates support by NCRI and time-off granted by NSU-HCNSO.
| Funders | Funder number |
|---|---|
| CI-ETPS | |
| Darwin Initiative | |
| Khaled bin Sultan Living Oceans Foundation | |
| National Science Foundation | |
| Directorate for Biological Sciences | OCE-1447306 |
| Division of Ocean Sciences | OCE-9314798 |
| Leona M. and Harry B. Helmsley Charitable Trust | |
| Walton Family Foundation | CI 2014-560 |
ASJC Scopus Subject Areas
- General
Keywords
- Environmental Monitoring/methods
- Ecuador
- Anthozoa/growth & development
- Animals
- Larva
- Population Density
- Biodiversity
- Coral Reefs
- Hydrogen-Ion Concentration
Disciplines
- Marine Biology
- Oceanography and Atmospheric Sciences and Meteorology