1 / 58

Coral Reef Ecosystems

Coral Reef Ecosystems. Ecology and Environmental Management. Coral reef ecology How they are formed Physical Environment Diversity patterns Threats to coral reefs Fisheries. Coral reef management Assessing damage Management for ecology and economics Diversification Tourism.

libby
Download Presentation

Coral Reef Ecosystems

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Coral Reef Ecosystems Ecology and Environmental Management

  2. Coral reef ecology How they are formed Physical Environment Diversity patterns Threats to coral reefs Fisheries Coral reef management Assessing damage Management for ecology and economics Diversification Tourism Lecture content

  3. Introduction to coral reefs

  4. What is a “coral reef” • Biological (“coral community”) • Organic, Biogenic • Coral and Algal communities • Mostly “hermatypic” corals, algae, and other sessile animals • Geological features (“reef”) • Carbonate • In situ buildup • Topographic relief • Wave resistant • Cemented, consolidated

  5. Corals • Phylum Anthazoa • Class Cnidaria • Hermatypic (hard) corals contain symbiotic algae • Up to 500 spp. at some sites Rosen 1981

  6. Building the reef CaCo3 addition - CaCo3 loss = Accumulation Biological erosion Mechanical erosion Sediment export, dissolution Reef Growth Biogenic production Sediment Import Cementation Kleypas et al 2001

  7. Types of reef • Fringing, Barrier, Atoll, Drowned

  8. Environmental requirements • Physical environment • Temperature of 25-31oC (limited Northwards by the 18oC minimum isotherm) • Salinity of 34-37 ppt • Light level • Predominantly in top 30 m of water • Biological environment • Oligotrophic, highly stratified water column

  9. Coral reef distribution

  10. Coral diversity patterns

  11. Maps • For the lecture I used maps from a variety of locations, often more for clarity than scientific detail. I would recommend the maps from the World Conservation Monitoring Centre (www.wcmc.org.uk) which I would tend to value as reliable. • The main point being that the high population densities in many coastal areas which contain high coral reef species richness represent a serious threat.

  12. Fish community • Mainly Perciform teleosts • 2 faunas, Diurnal and Nocturnal • Often territorial/site attached • Intraspecific interactions (pair bonding and harems) and interspecific mutualism (e.g. cleaning stations) • Mostly planktonic larvae • Estimated 4500 spp, 25% of marine total • ~10% of world fishery landings

  13. Fishery species • Often large, high-value fish

  14. Fish distribution patterns

  15. World population distribution

  16. And if that wasn’t bad enough…..

  17. Threats to coral reef systems • Overpopulation • Unsustainable fisheries • Coastal development • Global climate change

  18. Coral reef fisheries • Essential to survival of many • Managed sustainably for generations • Diverse ecosystem • Multispecies fisheries • Interspecies interactions may invalidate models • Collection of sufficient data for all species may not be practicable • Reduction of fishing effort to sustain all fish species wastes the productivity of most stocks

  19. Non-selective and destructive fishing methods • Subsistence fishing occurs regardless of effort required • Muro Ami, Dynamite (Blast), and cyanide fishing • Trawling • Trapping and lines • Ghost fishing • Total fishing mortality often not known

  20. Malthusian overfishing • “...occurs when poor fishermen, faced with declining catches and lacking any alternative initiate wholesale resource destruction in order to maintain their incomes. • This may involve in order of seriousness, and generally in temporal sequence...

  21. 1) Use of gears and mesh sizes not sanctioned by government • 2) Use of gears and mesh sizes not sanctioned within the fisherfolk community… • 3) Use of gears that destroy the resource base • 4) Use of gears such as dynamite or sodium cyanide that do all of the above and even endanger the fisherfolks themselves” McManus 1997

  22. Ecosystem effects of fisheries • Removal of predators • Removal of algal grazers • Change in dominance • Californian Sea Otters • Urchins • Crown of Thorns starfish “COTS” (Acanthaster planci) • Changes in size frequency of animals

  23. Crown of Thorns Starfish

  24. Crown of Thorns • Eats coral by everting gut • Aggregations can remove 95% of coral cover • May result in collapse of remaining skeleton • Pheromone controlled aggregated spawning • Recovery takes at least 12 years • Caused by loss of predators? • Increased larval survival due to pollution?

  25. Pollution Sewage Agriculture Aquaculture Rubbish Sedimentation Eutrophication Construction on reef flats Coral mining Mangrove destruction Terrestrial impacts

  26. Climate change • Potential impacts on coral communities • Changes in water temperature • Increases in CO2 concentration • Changes in solar irradiation (if cloud cover changes) • Sea level rises leading to drowning of reefs • Changes in surface run-off (sedimentation) • Changes in land-use patterns leading to increased reef exploitation Kleypas et al 2001

  27. Coral bleaching • Loss of symbiotic algae • May cause death of animal • A symptom of climate change?

  28. Coral Bleaching • First described in 1984 • Multiple re-occurrences at same sites • New sites impacted during 1990s • Many known triggers • Temperature (especially increases) • Solar radiation (especially UV) • Combination of UV and temperature • Reduced salinity • Infections

  29. Loss of symbiontic algae (Zooxanthellae) algae by: Degradation In situ Loss of algae by exocytosis Expulsion of intact endodermal cells containing algae Resulting impacts Vary between species, and even parts of the same colony Loss of sensitive species (especially Acropora spp.) Recovery slow and highly variable between sites Effects of bleaching

  30. The Problems • A large (and growing) number of people are dependent on coral reefs • Management of a multispecies fishery is extremely complex, and often fails • Terrestrial development may destroy coastal reef systems • Global climate change may exert new pressures

  31. Coral reef management

  32. Management Issues • Biological • What does the resource consist of? • What state is it in? • Is there overfishing? • Is there habitat destruction? • Socio-ecomomic • Levels of resource exploitation • More sustainable ways of exploiting the resource • Alternatives to coral reef exploitation/damage

  33. Monitoring coral reefs • What sites and parameters to monitor? • Fish • Macroinvertebrates • Water quality • Benthic habitat quality • Coral health

  34. Sources • Australian Institute for Marine Science (AIMS) website contains all their standard techniques. From a comparability point of view it is extremely helpful to use common techniques. • The AIMS site and their manual (English et al, 1997) even explains how to store the data in a database and manage it. Essential reading if you can get hold of it. • The use of volunteers for some types of coral reef survey work is very common and slightly controversial. Common sense will be necessary in determining what techniques a volunteer can apply - in particular for qualitative judgements about reef “quality” and levels of impact.

  35. Large-scale studies • Rapid Ecological Assessment • “Manta tows” • Estimates of % cover (live and dead coral) • Abundance of highly visible species • Human impacts • Mapping and aerial photography

  36. Monitoring fish • Visual census • Transects • Point counts • Random searching • Often allow biomass estimates • Fisheries monitoring

  37. Monitoring the benthos • Line intercept transects • Visual transects • Quadrats • Photography and video

  38. Line Intercept Transect

  39. Marine protected areas • Fisheries reserves • “No take zones” (NTZs) • Controlled fishing • Effects on fish populations • Coral reef fish often have small ranges • Effects on fishing revenue • Local management and ownership

  40. Sources • The marine protected areas case studies are based on the work of Russ and Alcala. • I think these are classic studies because they show both the conservation and economic benefits of marine reserves AND how important co-operation with the local community can be. • These are not new references, work from Roberts’s paper for newer studies. See also Gell and Roberts 2003 – Trends in Ecology and Evolution, 18, 448 - 455

  41. Biological effects of protection • Habitat protection • Biodiversity • Protection of vulnerable species • Allow fish to grow to maturity • Control (reference) sites

  42. Economic effects of protection • Increased size and abundance of stock species • Emmigration into fishing grounds (Spillover) • Insurance against management failure • Tourism “spin-offs” • Ease of enforcement

  43. Marine reserves case study

  44. Effects on fish diversity

  45. Effects on fish abundance and biomass

  46. Costs? Staff, setup, monitoring Initial loss of fishing revenue Size/shape of reserve? Life history and behaviour of fish Fishing intensity 20-40% of fishing ground Can you sell it? Any spin-off benefits? Employment of local staff? Compromise on size of reserve? What management outside reserve? Factors to consider

  47. Impacts of tourism • Terrestrial development • Land reclamation and creation of beaches • Mangrove removal • Sand on reef flat • Boats • Anchors • Diver/snorkeller impacts and fish feeding • Sewage • Harbour dredging

  48. Ras Mohammed project

  49. Growth of reef tourism

  50. Sources • This section is based on the works of David Medio and Julie Hawkins. A couple of their references are included at the end. • Much other material is directly from the Egyptian Environmental Affarirs Agency (link at the end)

More Related