Top

Biodiversity and Conservation

Published in:

01-12-2008 | Original Paper

Coral community structure and risk assessment of high-latitude reefs at Sodwana Bay, South Africa

Authors: Louis Celliers, Michael H. Schleyer

Published in: Biodiversity and Conservation | Issue 13/2008

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

The importance of studying coral communities at different spatial scales is acknowledged in a growing volume of scientific literature, and principles of landscape ecology were thus used to elucidate the patterns in coral community structure on the high-latitude reefs in South Africa. These reefs are at the southernmost distribution of this fauna in Africa, are surprisingly species rich, and represent a biodiversity peak in this fauna south of the equator, regardless of the marginal nature of the environment. Coral community patterns were identified on and between the reefs at Sodwana Bay, justifying the grouping of reef areas in distinct zones. A number of landscape components were identified, ranging from the entire reef complex (10 km scale), individual reefs (1 km scales) and reef zones, to components that were separated using multivariate statistical analysis of transect data. These components transcended spatial similarities, e.g. the fore-reef on Five-mile Reef was not similar to the fore-reef on Seven-mile Reef, but was rather grouped with the reef flat on Two-mile Reef. This information was “translated” into an index of management intervention, based on risk assessment, and was generated using parameters that measure susceptibility to crown-of-thorns feeding, bleaching, diver-related damage and swell-induced breakage. We also assessed was the time elapsed since the last major disturbance and the proximity to the only boat launch site, a proxy measure of continuous disturbance. The risk assessment suggested that conservation management is most needed in the stable and “climax” coral communities that are usually characterised by a near-equal mix of hard and soft corals at maximal coral species diversity.

previous article LIVES: a new habitat modelling technique for predicting the distribution of species’ occurrences using presence-only data based on limiting factor theory

next article Fish fauna of Chalakudy River, part of Western Ghats biodiversity hotspot, Kerala, India: patterns of distribution, threats and conservation needs

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Banks SA, Harriot VJ (1995) Coral communities of the Gneering Shoals and Mudjimba Island, South-eastern Queensland. Mar Freshw Res 46:1137–1144CrossRef

Banks SA, Skilleter GA (2002) Mapping intertidal habitats and an evaluation of their conservation status in Queensland, Australia. Ocean Coast Manage 45:485–509CrossRef

Boshoff PH (1981) An annotated checklist of Southern African Scleractinia. South African Association for Marine Biological Research, Investigational Report No. 49, Durban, p 44

Bradbury RH, Young PC (1983) Coral interactions and community structure: an analysis of spatial pattern. Mar Ecol 11:265–271CrossRef

Bray JR, Curtis JT (1957) An ordination of the upland communities of Southern Wisconsin. Ecol Monogr 27:325–349CrossRef

Brown JH (1995) Macroecology. University of Chicago Press, Chicago

Buddemeier RW, Kinzie RA III (1998) Reef science: asking all the wrong questions in all the wrong places? Reef Encounter 23:29–34

Carleton JH, Done TJ (1995) Quantitative video sampling of coral reef benthos: large-scale application. Coral Reefs 14:35–46CrossRef

Celliers L (2001) Effects of a crown-of-thorns starfish outbreak relative to other disturbances on marginal, high-latitude coral communities at Sodwana Bay, South Africa. Ph.D. Thesis, University of Natal, Durban, p 181

Celliers L, Schleyer MH (2002) Coral bleaching on high latitude marginal reefs at Sodwana Bay, South Africa. Mar Pollut Bull 44:1380–1387PubMedCrossRef

Celliers L, Schleyer MH (2006) Observations on the behaviour and character of an Acanthaster planci (L.) aggregation in a high-latitude coral community in South Africa. Western Indian Ocean J Mar Sci 5:105–113

Christie A, Bass DK, Neale SJ, Osborne K, Oxley WG (1996) Survey of sessile benthic communities using the video technique. Australian Institute of Marine Science, Long Term Monitoring of the Great Barrier Reef, Standard Operational Procedure (2). Australian Institute of Marine Science, Townsville, p 42

Clarke KR, Warwick RN (2001) Change in marine communities: an approach to statistical analysis and interpretation, 2nd edn. PRIMER-E, Ltd, Plymouth

Done TJ (1982) Patterns in the distribution of coral communities across the central Great Barrier Reef. Coral Reefs 1:95–107CrossRef

Done TJ (1983) Coral zonation: its nature and significance. In: Barnes DJ (ed) Perspectives on coral reefs. Brian Clouston, Manuka, pp 107–147

Edinger EN, Risk MJ (2000) Reef classification by coral morphology predicts coral reef conservation value. Biol Conserv 92:1–13CrossRef

English S, Wilkinson C, Baker V (1994) Survey manual for tropical marine resources. ASEAN—Australia Marine Science Project: Living Coastal Resources. Australian Institute of Marine Science, Townsville, p 368

Field JG, Clarke KR, Warwick RM (1982) A practical strategy for analysing multispecies distribution patterns. Mar Ecol Prog Ser 8:37–52CrossRef

Gabrie C, Planes S, Baldwin J, Bonvallot J, Chauvet C, Vernaudon Y, Payri C, Galzin R (1994) Study of the coral reefs of Bora-Bora (Society Archipelago, French Polynesia) for the development of a conservation and management plan. Ocean Coast Manage 25:189–216CrossRef

Glassom D, Celliers L, Schleyer MH (2006) Coral recruitment patterns at. Sodwana Bay, South Africa. Coral Reefs 25:485–492CrossRef

Grigg RW (1983) Community structure, succession and development of coral reefs in Hawaii. Mar Ecol Prog Ser 11:1–14CrossRef

Harriott VJ, Smith SDA, Harrison PL (1994) Patterns of coral community structure of subtropical reefs in the solitary islands marine reserve, eastern Australia. Mar Ecol 109:67–76

Huston MA (1985) Patterns of species diversity on coral reefs. Annu Rev Ecol Syst 16:149–177CrossRef

Jackson JBC (1991) Adaptation and diversity of reef corals. Bioscience 41:475–482CrossRef

Kay AM, Liddle MJ (1989) Impact of human trampling in different zones of a coral reef flat. Environ Manage 13:509–520CrossRef

Kleypas JA, McManus JW, Menez LAB (1999) Environmental limits to coral reef development: Where do we draw the line? Am Zool 39:146–159

Marion JL, Rogers CS (1994) The applicability of terrestrial visitor impact management strategies to the protection of coral reefs. Ocean Coast Manage 22:153–163CrossRef

Marshall PA, Baird AH (2000) Bleaching of corals on the Great Barrier Reef: differential susceptibilities among taxa. Coral Reefs 19:155–163CrossRef

Moran PJ (1988) The Acanthaster phenomenon. Australian Institute of Marine Science, Monograph Series (7), Australian Institute of Marine Science, Townsville, p 178

Palumbi SR (2003) Population genetics, demographic connectivity, and the design of marine reserves. Ecol Appl 13(1):S146–S158CrossRef

Pielou EC (1966) The measurement of diversity in different types of biological collections. J Theor Biol 13:131–144CrossRef

Ramsay PJ (1996) Quaternary marine geology of the Sodwana Bay continental shelf, Northern KwaZulu-Natal. Bull Geol Surv S Afr 117:1–85

Ramsay PJ, Mason TR (1990) Development of a type zoning model for Zululand coral reefs, Sodwana Bay, South Africa. J Coast Res 6:829–852

Riegl B (1995) A revision of the hard coral genus Acropora Oken, 1815 (Scleractinia: Astrocoeniina: Acroporidae) in south-east Africa. Zool J Linn Soc 113:249–288CrossRef

Riegl B (2001) Inhibition of reef framework by frequent disturbance: examples from the Arabian Gulf, South Africa, and the Cayman Islands. Palaeogeogr Palaeoclimatol Palaeoeco 175:79–102CrossRef

Riegl B (2003) Global climate change and coral reefs: different effects in two high latitude areas (Arabian Gulf, South Africa). Coral Reefs 22:433–446CrossRef

Riegl B, Branch GM (1995) Effects of sediment on the energy budgets of four scleractinian and five alcyonacean corals. J Exp Mar Biol Ecol 186:259–275CrossRef

Riegl B, Riegl A (1996) Studies on coral community structure and damage as a basis for zoning marine reserves. Biol Conserv 77:269–277CrossRef

Riegl B, Schleyer MH, Cook PJ, Branch GM (1995) Structure of Africa’s southernmost coral communities. Bull Mar Sci 56:676–691

Risk MJ (1999) Paradise lost: how marine science failed the world’s coral reefs. Mar Freshw Res 50:831–837CrossRef

Roberts CM, Andelman S, Branch G et al (2003) Ecological criteria for evaluating candidate sites for marine reserves. Ecol Appl 13(1):S199–S214CrossRef

Rouphael T, Inglis G (1995) The effects of qualified recreational SCUBA divers on coral reefs. Technical Report (4). CRC Reef Research Centre, Townsville, p 39

Schleyer MH (2000) South African coral communities. In: McClanahan T, Sheppard C, Obura D (eds) Coral reefs of the Indian Ocean: their ecology and conservation. Oxford University Press, New York, pp 83–105

Schleyer MH, Celliers L (2000) The status of South African coral reefs. In: Souter D, Obura D, Linden O (eds) Coral reef degradation in the Indian Ocean: Status Report 2000, CORDIO, Stockholm, Sweden, pp 49–50

Schleyer MH, Celliers L (2003a) Biodiversity on the marginal coral reefs of South Africa: What does the future hold? Zool Ver 345:387–400

Schleyer MH, Celliers L (2003b) Coral dominance at the reef-sediment interface in marginal coral communities at Sodwana Bay, South Africa. Mar Freshw Res 54:967–972CrossRef

Schleyer MH, Celliers L (2005) Modelling reef zonation in the Greater St Lucia Wetland Park, South Africa. Est Coast Shelf Sci 63:373–384CrossRef

Schleyer MH, Tomalin BJ (2000) Damage on South African coral reefs and an assessment of their sustainable diving capacity using a fisheries approach. Bull Mar Sci 67:1025–1034

Schumann EH (1988) Physical oceanography off Natal. In: Schumann E (ed) Lecture notes on coastal and estuarine studies: coastal ocean studies off Natal, South Africa. Springer-Verlag, New York, pp 101–130

Veron JEN, Pichon M (1976) Scleractinia of eastern Australia. Part I. Families Thamnasteriidae, Astrocoeniidae, Pocilloporidae. Aust Inst Mar Sci Monogr Ser 1:1–86

Veron JEN, Pichon M (1980) Scleractinia of eastern Australia. Part III. Families Agariciidae, Siderastreidae, Fungiidae, Oculinidae, Merulinidae, Mussidae, Pectiniidae, Caryophylliidae, Dendrophylliidae. Aust Inst Mar Sci Monogr Ser 4:1–443

Veron JEN, Pichon M (1982) Scleractinia of eastern Australia. Part IV. Family Poritidae. Aust Inst Mar Sci Monogr Ser 5:1–159

Veron JEN, Wallace CC (1984) Scleractinia of Eastern Australia, Part V, Family Acroporidae. Aust Inst Mar Sci Monogr Ser 6:1–485

Veron JEN, Pichon M, Wijsman-Best M (1977) Scleractinia of Eastern Australia, Part II, Families Faviidae, Trachyphylliidae. Aust Inst Mar Sci Monogr Ser 3:1–233

Wells JW (1954) Recent corals of the Marshall Islands. U S Geol Surv Prof Pap 260:285–486

Title: Coral community structure and risk assessment of high-latitude reefs at Sodwana Bay, South Africa
Authors: Louis Celliers
Michael H. Schleyer
Publication date: 01-12-2008
Publisher: Springer Netherlands
Published in: Biodiversity and Conservation / Issue 13/2008
Print ISSN: 0960-3115
Electronic ISSN: 1572-9710
DOI: https://doi.org/10.1007/s10531-007-9271-6

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 13/2008

Bird-habitat associations predict population trends in central European forest and farmland birds

Impacts of large dams on riparian vegetation: applying global experience to the case of China’s Three Gorges Dam

Assemblage structure and conservation value of spiders and carabid beetles from restored lowland river banks

LIVES: a new habitat modelling technique for predicting the distribution of species’ occurrences using presence-only data based on limiting factor theory

Plant and arthropod communities in young oak stands: are they determined by site history?

Effectiveness of natural protected areas to prevent land use and land cover change in Mexico