Cousin Island marine reserve (Seychelles) has been an effectively protected no-take marine protected area (MPA) since 1968 and was shown in 1994 to support a healthy herbivorous fish assemblage. In 1998 Cousin Island reefs suffered extensive coral mortality following a coral bleaching event, and a phase shift from coral to algal dominance ensued. By 2005 mean coral cover wa
Tropical Oceania, including Melanesia, Polynesia, Micronesia and northern Australia, is one of the most biodiverse
regions of the world. Climate change impacts have already occurred in the region and will become one of the greatest
threats to biodiversity and people. Climate projections indicate that sea levels will rise in many places but not uniformly.
Islands will warm and annual rainfall will increase and exhibit strong decadal variations. Increases in global atmospheric
CO2 concentration are causing ocean acidification, compromising the ability of organisms such as corals to maintain
their calcium carbonate skeletons. We discuss these climate threats and their implications for the biodiversity of several
ecosystems (coral reefs, seagrass and mangroves) in the region. We highlight current adaptation approaches designed
to address these threats, including efforts to integrate ecosystem and community-based approaches. Finally, we identify
guiding principles for developing effective ecosystem-based adaptation strategies. Despite broad differences in
governance and social systems within the region, particularly between Australia and the rest of the Pacific, threats
and planning objectives are similar. Ensuring community awareness and participation are essential everywhere. The
science underpinning ecosystem-based adaptation strategies is in its infancy but there is great opportunity for
communicating approaches and lessons learnt between developing and developed nations in tropical Oceania.
Small areas of the wetter parts of southeast Australia including Tasmania support high-biomass “wet” eucalypt forests, including “mixed” forests consisting of mature eucalypts up to 100 m high with a rainforest understorey. In Tasmania, mixed forests transition to lower biomass rainforests over time. In the scientific and public debate on ways to mitigate climate change, these forests have received attention for their ability to store large amounts of carbon (C), but the contribution of soil C stocks to the total C in these two ecosystems has not been systematically researched, and consequently, the potential of wet eucalypt forests to serve as long-term C sinks is uncertain. This study compared soil C stocks to 1 m depth at paired sites under rainforest and mixed forests and found that there was no detectable difference of mean total soil C between the two forest types, and on average, both contained about 200 Mg·ha−1 of C. Some C in subsoil under rainforests is 3000 years old and retains a chemical signature of pyrogenic C, detectable in NMR spectra, indicating that soil C stocks are buffered against the effects of forest succession. The mean loss of C in biomass as mixed forests transition to rainforests is estimated to be about 260 Mg·ha−1 over a c. 400-year period, so the mature mixed forest ecosystem emits about 0.65 Mg·ha−1·yr−1 of C during its transition to rainforest. For this reason and because of the risk of forest fires, setting aside large areas of wet eucalypt forests as reserves in order to increase landscape C storage is not a sound strategy for long-term climate change mitigation. Maintaining a mosaic of managed native forests, including regenerating eucalypts, mixed forests, rainforests, and reserves, is likely to be the best strategy for maintaining landscape C stocks.
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