Temperate Highland Peat Swamps on Sandstone (THPSS) are a form of topogenous mire found on the plateau areas of eastern Australia. They are well recognised for their ecological value, but our understanding of their geomorphic structure, function and evolution remains limited. Across 19 sites, the valley fills of THPSS comprise sequences of mineral-rich sand and loam deposits. Basal sand and gravel sediments have low organic content and low carbon to nitrogen (C:N) ratios (a measure of peat formation) and are dated between 15.3 and 9 kyr cal. BP, with outliers back to 44 kyr cal. BP. These units reflect mineral-sediment trapping and accumulation on the valley floor. The transition to ‘swamp’ conditions through paludification occurred between 15.2 and 10.3 kyr cal. BP in some systems, and between 7.6 and 1.4 kyr cal. BP in other, adjacent valleys. These ‘swamp’ sediments comprise a package of units, progressing upward from fine cohesive sands, through assemblages of alternating organic sands to surface organic fines. These beds vary in texture from loams to sands and have a range of organic matter content (from 7.6% to 79.9%) and C:N ratios (from 15 to 58). The surface organic fines at 0 and 100 cm depth range in age from 13.1 to 0.7 kyr cal. BP. The composition and age structure of the valley fill suggest a mix of allogenic and autogenic controls are responsible for the formation of these swamps, but a regional model of THPSS evolution is emerging. Given these ‘peatlands’ have formed under a climate that experiences significant inter-annual variability in rainfall, conditions for peat formation are localised and not directly equivalent to those documented internationally.
In response to peatland degradation by human activities worldwide, restoration through gully blocking is now being implemented in an attempt to return valuable ecological and hydrological services to degraded systems. Re-establishing these services requires an understanding of how systems have formed and evolved in order to establish conditions that assist with physical and ecological recovery. However, management of peatlands and swamps continues without prior investigation into the environmental history of these ecosystems. This study investigates stratigraphy, sediment ages and peat forming potential within three Temperate Highland Peat Swamps on Sandstone in the Blue Mountains, NSW. These swamps are listed as Endangered Ecological Communities under the Environment Protection and Biodiversity Conservation Act 1999 (Cwlth) and the Threatened Species Conservation Act 1995 (NSW). High discontinuity in sediment structure, peat forming potential and timeframes of swamp initiation were observed across the three swamps. This localised variation reflects the complex geomorphic processes acting within and between these systems. Such data provides scientists and managers with key indicators to assess timeframes over which infilling, vegetation establishment and peat formation occurs. These tools can guide prioritisation, conservation and financial expenditure for the management and rehabilitation of temperate peat swamps.
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