Abstract
Australia’s developed coasts are a heavily competed space, subject to urban, industrial and agricultural development. A diversity of habitats, such as mangroves, saltmarshes and seagrasses, comprise Australia’s coastal seascape and provide numerous benefits including fish productivity, carbon sequestration, nutrient cycling, coastal protection and recreation. Decision makers need to be able to weigh up the relative costs and benefits of coastal development, protection or repair and to do this they need robust, accessible and defensible data on the ecological function and economic value of Australia’s coastal seascapes. We reviewed the published literature, with a focus on saltmarsh as a vulnerable ecological community, to determine the availability of information on key ecological functions that could inform ecosystem service valuation. None of the publications we reviewed quantified nutrient cycling, coastal protection or recreation functions. Only 13 publications presented quantitative information on carbon sequestration and fish productivity. These were limited geographically, with the majority of studies on sub-tropical and temperate saltmarsh communities between south-east Queensland and Victoria. This demonstrates a lack of quantitative information needed to substantiate and communicate the value of Australia’s saltmarshes in different locations, scales and contexts. Research should focus on addressing these knowledge gaps and communicating evidence in a relevant form and context for decision-making. We discuss four principles for research funding organisations and researchers to consider when prioritising and undertaking research on key ecological functions of Australia’s saltmarshes, and coastal seascapes more broadly, to support sustainable coastal development, protection and repair for long-term economic and community benefit.
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Abrantes K, Sheaves M (2008) Incorporation of terrestrial wetland material into aquatic food webs in a tropical estuarine wetland. Estuar Coast Shelf Sci 80:401–412. doi:10.1016/j.ecss.2008.09.009
Abrantes KGS, Sheaves M (2010) Importance of freshwater flow in terrestrial-aquatic energetic conectivity in intermittently connected estuaries of tropical Australia. Mar Biol 157:2071–2086
Abrantes KG, Johnston R, Connolly RM, Sheaves M (2014) Importance of Mangrove Carbon for Aquatic Food Webs in Wet-Dry Tropical Estuaries. Estuaries Coasts 38:383–399. doi:10.1007/s12237-014-9817-2
Adam P (2002) Saltmarshes in a time of change. Environ Conserv 29:39–61. doi:10.1017/s0376892902000048
ANZECC (2000) Australian and New Zealand guidelines for fresh and marine water quality. Australian and New Zealand Environment and Conservation Council and Agriculture and Resource Management Council of Australia and New Zealand, Canberra
Atkinson G, Bateman I, Mourato S (2012) Recent advances in the valuation of ecosystem services and biodiversity. Oxf Rev Econ Policy 28:22–47. doi:10.1093/oxrep/grs007
Australian Bureau of Statistics (2004) Year book Australia 2004. Australian Government, Canberra
Barbier EB (2000) Valuing the environment as an input: review of applications to mangrove-fishery linkages. Ecol Econ 35:47–61
Barbier EB (2011) Progress and challenges in valuing coastal and marine ecosystem services. Rev Environ Econ Policy 6:1–19. doi:10.1093/reep/rer017
Barbier EB, Hacker SD, Kennedy C, Koch EW, Stier AC, Silliman BR (2011) The value of estuarine and coastal ecosystem services. Ecol Monogr 81:169–193
Beck MW et al (2001) The identification, conservation, and management of estuarine and marine nurseries for fish and invertebrates: a better understanding of the habitats that serve as nurseries for marine species and the factors that create site-specific variability in nursery quality will improve conservation and management of these areas. Bioscience 51:633–641
Bloomfield AL, Gillanders BM (2005) Fish and invertebrate Assemblages in Seagrass, Saltmarsh, and Nonvegetated Habitats. Estuaries 28:63–77
Boon PI, Cook P, Woodland R (2016) The Gippsland Lakes: management challenges posed by long-term environmental change. Mar Freshw Res 67:721–737. doi:10.1071/MF14222
Booth DJ, Bond N, Macreadie P (2011) Detecting range shifts among Australian fishes in response to climate change. Mar Freshw Res 62:1027–1042. doi:10.1071/mf10270
Breaux A, Farber S, Day J (1995) Using natural coastal wetlands systems for wastewater treatment: an economic benefit analysis. J Environ Manag 44:285–291
Burley JG, McAllister RRJ, Collins KA, Lovelock CE (2012) Integration, synthesis and climate change adaptation: a narrative based on coastal wetlands at the regional scale. Reg Environ Change 12:581–593. doi:10.1007/s10113-011-0271-4
Burton M, Rogers A, Richert C (2016) Community acceptance of biodiversity offsets: evidence from a choice experiment. Austr J Agric Resour Econ 59:1–20
Chmura GL, Anisfeld SC, Cahoon DR, Lynch JC (2003) Global carbon sequestration in tidal, saline wetland soils. Glob Biogeochem Cycles 17:1111
Clark RD, Christensen JD, Monaco ME, Caldwell PA, Matthews GA, Minello TJ (2004) A habitat-use model to determine essential fish habitat for juvenile brown shrimp (Farfantepenaeus aztecus) in Galveston Bay, Texas. Fish Bull 102:264–277
Commonwealth of Australia (2011) Sustainable Australia—sustainable communities: an overview. Commonwealth of Australia, Canberra
Commonwealth of Australia (2015a) National climate resilience and adaptation strategy 2015. Commonwealth of Australia, Canberra
Commonwealth of Australia (2015b) Our north, our future: white paper on developing Northern Australia. Commonwealth of Australia, Canberra
Commonwealth of Australia (2015c) Reef 2050 Long-term Sustainability Plan. Commonwealth of Australia, Canberra
Connolly R (1999) Saltmarsh as habitat for fish and nektonic crustaceans: challenges in sampling designs and methods. Aust J Ecol 24:422–430
Connolly RM (2005) Modification of saltmarsh for mosquito control in Australia alters habitat use by nekton. Wetl Ecol Manag 13:149–161. doi:10.1007/s11273-004-9569-z
Connolly R, Dalton A, Bass DA (1997) Fish use of an inundated saltmarsh flat in a temperate Australian estuary. Aust J Ecol 22:222–226
Costanza R et al (1997) The value of the world’s ecosystem services and natural capital. Nature 387:253–260. doi:10.1038/387253a0
Costanza R, Perez-Maqueo O, Martinez ML, Sutton P, Anderson SJ, Mulder K (2008) The value of coastal wetlands for hurricane protection. Ambio 37:241–248
Costanza R et al (2014) Changes in the global value of ecosystem services. Glob Environ Change 26:152–158
Creighton C, Boon PI, Brookes J, Sheaves M (2015a) Repairing Australia’s estuaries for improved fisheries production—what benefits, at what cost? Mar Freshw Res 66:493–507. doi:10.1071/MF14041
Creighton C, Gillies CL, McLeod IM (2015b) Australia’s saltmarshes: a synopsis to underpin the repair and conservation of Australia’s environmental, social and economically important bays and estuaries. James Cook University, Townsville
Cvitanovic C, Hobday AJ, van Kerkhoff L, Wilson SK, Dobbs K, Marshall NA (2015) Improving knowledge exchange among scientists and decision-makers to facilitate the adaptive governance of marine resources: a review of knowledge and research needs. Ocean Coast Manag 112:25–35. doi:10.1016/j.ocecoaman.2015.05.002
Davidson N (2014) How much wetland has the world lost? Long-term and recent trends in global wetland area. Mar Freshw Res 65:934–941. doi:10.1071/MF14173
de Groot RS, Wilson MA, Boumans RMJ (2002) A typology for the classification, description and valuation of ecosystem functions, goods and services. Ecol Econ 41:393–408
de Groot R, Stuip M, Finlayson M, Davidson N (2006) Valuing wetlands: Guidance for valuing the benefits derived from wetland ecosystem services. Ramsar Convention, Gland
Deloitte Access Economics (2013) Economic contribution of the Great Barrier Reef. Great Barrier Reef Marine Park Authority, Townsville
Department of the Environment (2016a) Listed threatened species and ecological communities. http://www.environment.gov.au/epbc/what-is-protected/threatened-species-ecological-communities. Accessed 30 Sept 2016
Department of the Environment (2016b) Subtropical and temperate coastal saltmarsh in community and species profile and threats database. Department of the Environment. http://www.environment.gov.au/cgi-bin/sprat/public/publicshowcommunity.pl?id=118&status=Vulnerable. Accessed 10 Mar 2016
Duarte CM, Dennison WC, Orth RJ, Carruthers TJB (2008) The Charisma of coastal ecosystems: addressing the inbalance. Perspect Estuar Coast Sci 31:233–238
Duke NC et al (2003) Assessing historical change in coastal environments. Port Curtis, Fitzroy River Estuary and Moreton Bay. Report to the CRC for Coastal Zone, Estuary and Waterway Management. University of Queensland, Brisbane
Edyvane KS (1999) Coastal and marine wetlands in Gulf St. Vincent, South Australia: understanding their loss and degradation. Wetl Ecol Manag 7:83–104. doi:10.1023/A:1008481228129
Enwright NM, Griffith KT, Osland MJ (2016) Barriers to and opportunities for landward migration of coastal wetlands with sea-level rise. Front Ecol Environ 14:307–316. doi:10.1002/fee.1282
Foster NM, Hudson MD, Bray S, Nicholls RJ (2013) Intertidal mudflat and saltmarsh conservation and sustainable use in the UK: a review. J Environ Manag 126:96–104. doi:10.1016/j.jenvman.2013.04.015
Game ET, Schwartz MW, Knight AT (2015) Policy relevant conservation science. Conserv Lett 8:309–311. doi:10.1111/conl.12207
Great Barrier Reef Marine Park Authority (2012) Informing the outlook for the Great Barrier Reef. Great Barrier Reef Marine Park Authority, Townsville
Great Barrier Reef Marine Park Authority (2014) Great barrier reef outlook report 2014. GBRMPA, Townsville
Harty C (2009) Mangrove planning and management in New Zealand and South East Australia—a reflection on approaches. Ocean Coast Manag 52:278–286. doi:10.1016/j.ocecoaman.2009.03.001
HLPE (2014) Sustainable fisheries and aquaculture for food security and nutrition. High level panel of experts on food security and nutritional the Committee on World Food Securit, Rome
Holmer M et al (2008) Effects of fish farm waste on Posidonia oceanica meadows: synthesis and provision of monitoring and management tools. Mar Pollut Bull 56:1618–1629
Howe AJ, Rodríguez JF, Saco PM (2009) Surface evolution and carbon sequestration in disturbed and undisturbed wetland soils of the Hunter estuary, southeast Australia. Estuar Coast Shelf Sci 84:75–83. doi:10.1016/j.ecss.2009.06.006
Kairo JG, Dahdouh-Guebas F, Bosire J, Koedam N (2001) Restoration and management of mangrove systems– a lesson for and from the East African region. S Afr J Bot 67:383–389
Kelleway JJ, Saintilan N, Macreadie PI, Skilbeck CG, Zawadzki A, Ralph PJ (2016) Seventy years of continuous encroachment substantially increases ‘blue carbon’ capacity as mangroves replace intertidal salt marshes. Glob Change Biol 22:1097–1109. doi:10.1111/gcb.13158
Laegdsgaard P (2006) Ecology, disturbance and restoration of coastal saltmarsh in Australia: a review. Wetl Ecol Manag 14:379–399. doi:10.1007/s11273-005-8827-z
Laurance WF et al (2011) The 10 Australian ecosystems most vulnerable to tipping points. Biol Conserv 144:1472–1480. doi:10.1016/j.biocon.2011.01.016
Lawrence AJ, Baker E, Lovelock CE (2012) Optimising and managing coastal carbon: comparative sequestration and mitigation opportunities across Australia’s landscapes and land uses. Fisheries Research and Development Corporation, Canberra
Lovelock CE, Adame MF, Bennion V, Hayes M, O’Mara J, Reef R, Santini NS (2014) Contemporary rates of carbon sequestration through vertical accretion of sediments in Mangrove Forests and Saltmarshes of South East Queensland, Australia. Estuaries Coasts 37:763–771. doi:10.1007/s12237-013-9702-4
Luisetti T, Turner RK, Bateman IJ, Morse-Jones S, Adams C, Fonseca L (2011) Coastal and marine ecosystem services valuation for policy and management: managed realignment case studies in England. Ocean Coast Manag 54:212–224. doi:10.1016/j.ocecoaman.2010.11.003
Luisetti T et al (2014) Coastal Zone Ecosystem Services: from science to values and decision making; a case study. Sci Total Environ 493:682–693. doi:10.1016/j.scitotenv.2014.05.099
Maron MI, Ives CD, Kujala H, Bull JW, Maseyk FJF, Bekessy S, Gordon A, Watson JEM, Lentini PE, Gibbons P, Possingham HP, Hobbs RJ, Hobbs RJ, Keith DA, Wintle BA, Evans MC (2016) Taming a wicked problem: resolving controversies in biodiversity offsetting. Bioscience XX:1–10
Marre J-B, Thebaud O, Pascoe S, Jennings S, Boncoeur J, Coglan L (2015) The use of ecosystem services valuation in Australian coastal zone management. Mar Policy 56:117–124. doi:10.1016/j.marpol.2015.02.011
McLeod E et al (2011) A blueprint for blue carbon: toward an improved understanding of the role of vegetated coastal habitats in sequestering CO2. Front Ecol Environ 9:552–560. doi:10.1890/l
Michaels S (2009) Matching knowledge brokering strategies to environmental policy problems and settings. Environ Sci Policy 12:994–1011. doi:10.1016/j.envsci.2009.05.002
Millenium Ecosystem Assessment (2005) Ecosystems and human well-being: Wetlands and Water Synthesis. World Resources Institute, Washington
Minister for the Environment (2015a) Australia establishes international partnership for Blue Carbon, media release, 6 December. Australian Government, Canberra
Minister for the Environment (2015b) New research on the potential for Blue Carbon to reduce emissions and help tackle climate change, media release, 2 December. Australian Government, Canberra
Moreno-Mateos D, Power ME, Comin FA, Yockteng R (2012) Structural and functional loss in restored wetland ecosystems. PLoS Biol 10:e1001247. doi:10.1371/journal.pbio.1001247
Nagelkerken I et al (2008) The habitat function of mangroves for terrestrial and marine fauna: a review. Aquat Bot 89:155–185. doi:10.1016/j.aquabot.2007.12.007
Nagelkerken I, Sheaves M, Baker R, Connolly RM (2015) The seascape nursery: a novel spatial approach to identify and manage nurseries for coastal marine fauna. Fish Fish 16:362–371. doi:10.1111/faf.12057
Natural Resource Management Ministerial Council (2010) Australia’s biodiversity conservation strategy 2010–2030. Australian Government Department of Sustainability, Environment, Water, Population and Communities, Canberra
Owers CJ, Rogers K, Mazumder D, Woodroffe CD (2016) Spatial variation in carbon storage: a case study for Currambene Creek, NSW, Australia. J Coast Res. doi:10.2112/si75-260.1
Pilkey OH, Cooper JAG, Lewis DA (2009) Global distribution and geomorphology of fetch-limited Barrier Islands. J Coast Res 25:819–837. doi:10.2112/08-1023.1
PMSEIC (2010) Australia and food security in a changing world. The Prime Ministers Science, Engineering and Innovation Council, Canberra
Rogers K et al (2016) The state of legislation and policy protecting Australia’s mangrove and salt marsh and their ecosystem services. Mar Policy 72:139–155
Saintilan N, Rogers K (2009) Coastal saltmarsh vulnerability to climate change in South-east Australia. Paper presented at the NSW Coastal Conference, Australia
Saintilan N, Rogers K (2013) The significance and vulnerability of Australian saltmarshes: implications for management in a changing climate. Mar Freshw Res 64:66–79. doi:10.1071/mf12212
Saintilan N, Williams RJ (1999) Mangrove transgression into saltmarsh environments in south-east Australia. Glob Ecol Biogeogr 8:117–124
Saintilan N, Hossain K, Mazumder D (2007) Linkages between seagrass, mangrove and saltmarsh as fish habitat in the Botany Bay estuary, New South Wales. Wetl Ecol Manag 15:277–286. doi:10.1007/s11273-006-9028-0
Saintilan N, Rogers K, Mazumder D, Woodroffe C (2013) Allochthonous and autochthonous contributions to carbon accumulation and carbon store in southeastern Australian coastal wetlands. Estuar Coast Shelf Sci 128:84–92. doi:10.1016/j.ecss.2013.05.010
Saintilan N, Wilson NC, Rogers K, Rajkaran A, Krauss KW (2014) Mangrove expansion and salt marsh decline at mangrove poleward limits. Glob Change Biol 20:147–157. doi:10.1111/gcb.12341
Sathirathai S (2000) Economic valuation of mangroves and the roles of local communities in the conservation of natural resources: case study of Surat Thani, South of Thailand. Economy and Environment Program for Southeast Asia, Ottawa
Scandol JP, Holloway MG, Gibbs PJ, Astles KL (2005) Ecosystem-based fisheries management: an Australian perspective. Aquat Living Resour 18:261–273
Sheaves M (2009) Consequences of ecological connectivity: the coastal ecosystem mosaic. Mar Ecol Prog Ser 391:107–115. doi:10.3354/meps08121
Sinclair S, Boon PI (2012) Changes in the area of coastal marsh in Victoria since the mid 19th century. Cunninghamia 12:153–176
Smart J, Hasan S, Volders A, Curwen G, Fleming C, Burford MA (2016) A tradable permit scheme for cost-effective reduction of nitrogen runoff in the sugarcane catchments of the Great Barrier Reef. Report to the National Environmental Science Programme. Reef and Rainforest Research Centre Limited, Cairns
State of Queensland (2014) Flexible options for managing point source water emissions: a voluntary market-based mechanism for nutrient management. Department of Environment and Heritage Protection, Brisbane
State of the Environment 2011 Committee (2011) Australian State of the Environment 2011. Independent report to the Australian Government Minister for Sustainability, Environment, Water, Population and Communities. DSEWPaC, Canberra
Thomas BE, Connolly R (2001) Fish use of subtropical saltmarshes in Queensland, Australia: relationships with vegetation, water depth and distance onto the marsh. Mar Ecol Prog Ser 209:275–288
Turner RK, Daily GC (2008) The ecosystem services framework and natural capital conservation. Environ Resour Econ 39:25–35. doi:10.1007/s10640-007-9176-6
Unno J, Semeniuk V (2009) The habitats of the Western Australian soldier crab Mictyris occidentalis Unno 2008 (Brachyura: Mictyridae) across its biogeographical range. J R Soc West Aust 92:289–363
Unsworth RKF, Petersen TB (1995) A manual for conducting natural resource damage assessment: the role of economics. Industrial Economics Incorporated, Cambridge
Weinstein MP, Litvin SY (2016) Macro-restoration of tidal wetlands: a whole estuary approach. Ecol Restor 34:27–38
Wild K (2016) ‘Shocking images’ reveal death of 10,000 hectares of mangroves across Northern Australia. Australian Broadcasting Corporation. http://www.abc.net.au/news/2016-07-10/unprecedented-10000-hectares-of-mangroves-die/7552968?pfmredir=sm. Accessed 5 Oct 2016
Wilson JG (2002) Productivity, fisheries and aquaculture in temperate estuaries. Estuar Coast Shelf Sci 55:953–967. doi:10.1006/ecss.2002.1038
Acknowledgements
The Australian Government’s National Environmental Science Programme: Marine Biodiversity Hub funded the synopsis of knowledge of Australia’s saltmarshes, which formed part of this study. Heidi Alleway, Paul Boon, Agnes Le Port, Vishnu Prahalad and Kylie Russell contributed to the synopsis. For more information on this synopsis see www.saltmarshrepair.org.au. Thanks also to Elodie Lédée for preparing Fig. 2 and to Claudia Trave for the graphical abstract.
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Appendix: List of saltmarsh publications reviewed
Appendix: List of saltmarsh publications reviewed
Abrantes K and Sheaves M (2008) Incorporation of terrestrial wetland material into aquatic food webs in a tropical estuarine wetland. Estuarine, Coastal and Shelf Science 80(3): 401–412.
Adam P (2002) Saltmarshes in a time of change. Environmental Conservation 29(01): 39–61.
Becker A and Laurenson LJB (2008) Presence of fish on the shallow flooded margins of a small intermittently open estuary in south eastern Australia under variable flooding regimes. Estuaries and Coasts 31(1): 43-52.
Bloomfield AL and Gillanders BM (2005) Fish and invertebrate assemblages in seagrass, saltmarsh, and nonvegetated habitats. Estuaries 28(1): 63–77.
Boon PI and Cain S (1988) Nitrogen cycling in salt-marsh and mangrove sediments at Western Port, Victoria. Australian Journal of Marine and Freshwater Research 39: 607–623.
Boon PI, Cook P and Woodland R (2016) The Gippsland Lakes: management challenges posed by long-term environmental change. Marine & Freshwater Research 67(6): 721–737.
Booth DJ, Bond N and Macreadie P (2011) Detecting range shifts among Australian fishes in response to climate change. Marine and Freshwater Research 62(9): 1027–1042.
Burley JG, McAllister RRJ, Collins KA and Lovelock CE (2012) Integration, synthesis and climate change adaptation: a narrative based on coastal wetlands at the regional scale. Regional Environmental Change 12(3): 581–593.
Clarke PJ (1985) Nitrogen pools and soil characteristics of a temperate estuarine wetland in eastern Australia. Aquatic Botany 23: 275–290.
Connolly R, Dalton A and Bass DA (1997) Fish use of an inundated saltmarsh flat in a temperate Australian estuary. Australian Journal of Ecology 22: 222–226.
Connolly R, Hindell JS and Gorman D (2005) Seagrass and epiphytic algae support nutrition of a fisheries species, Sillago schomburgkii, in adjacent intertidal habitats. Marine Ecology Progress Series 286: 69–79.
Connolly RM (2003) Differences in trophodynamics of commercially important fish between artificial waterways and natural coastal wetlands. Estuarine, Coastal and Shelf Science 58(4): 929–936.
Connolly RM (2005) Modification of saltmarsh for mosquito control in Australia alters habitat use by nekton. Wetlands Ecology and Management 13(2): 149–161.
Connolly RM and Waltham NJ (2015) Spatial analysis of carbon isotopes reveals seagrass contribution to fishery food web. Ecosphere 6(9): art148.
Crinall SM and Hindell JS (2004) Assessing the use of saltmarsh flats by fish in a temperate Australian embayment. Estuaries 27(4): 728–739.
Davis B, Mattone C and Sheaves M (2014) Bottom-up control regulates patterns of fish connectivity and assemblage structure in coastal wetlands. Marine Ecology Progress Series 500: 175–186.
Davis B, Baker R and Sheaves M (2014) Seascape and metacommunity processes regulate fish assemblage structure in coastal wetlands. Marine Ecology Progress Series 500: 187–202.
Davis TLO (1988) Temporal changes in the fish fauna entering a tidal swamp system in tropical Australia. Environmental Biology of Fishes 21(3): 161–172.
Edyvane KS (1999) Coastal and marine wetlands in Gulf St. Vincent, South Australia: Understanding their loss and degradation. Wetlands Ecology and Management 7(1–2): 83–104.
Gonsalves L, Law B, Webb C and Monamy V (2012) Are vegetation interfaces important to foraging insectivorous bats in endangered coastal saltmarsh on the Central Coast of New South Wales? Pacific Conservation Biology 18: 282–292.
Green J, Reichelt-Brushett A and Jacobs SWL (2009) Re-establishing a saltmarsh vegetation structure in a changing climate. Ecological Management & Restoration 10(1): 20–30.
Guest MA and Connolly R (2004) Fine-scale movement and assimilation of carbon in saltmarsh and mangrove habitat by resident animals. Aquatic Ecology 38: 599–609.
Hadwen WL, Russell GL and Arthington AH (2007) Gut content- and stable isotope-derived diets of four commercially and recreationally important fish species in two intermittently open estuaries. Marine and Freshwater Research 58(4): 363–375.
Harty C (2004) Planning Strategies for Mangrove and Saltmarsh Changes in Southeast Australia. Coastal Management 32(4): 405–415.
Harty C (2009) Mangrove planning and management in New Zealand and South East Australia – A reflection on approaches. Ocean & Coastal Management 52(5): 278–286.
Hindell JS and Warry FY (2010) Nutritional support of estuary perch (Macquaria colonorum) in a temperate Australian inlet: Evaluating the relative importance of invasive Spartina. Estuarine, Coastal and Shelf Science 90(3): 159–167.
Hollingsworth A and Connolly RM (2006) Feeding by fish visiting inundated subtropical saltmarsh. Journal of Experimental Marine Biology and Ecology 336(1): 88–98.
Howe AJ, Rodríguez JF and Saco PM (2009) Surface evolution and carbon sequestration in disturbed and undisturbed wetland soils of the Hunter estuary, southeast Australia. Estuarine, Coastal and Shelf Science 84(1): 75–83.
Hurry CR, James EA and Thompson RM (2013) Connectivity, genetic structure and stress response of Phragmites australis: Issues for restoration in a salinising wetland system. Aquatic Botany 104: 138–146.
Laegdsgaard P (2006) Ecology, disturbance and restoration of coastal saltmarsh in Australia: a review. Wetlands Ecology and Management 14(5): 379–399.
Laurance WF, Dell B, Turton SM, Lawes MJ, Hutley LB, McCallum H, Dale P, Bird M, Hardy G, Prideaux G, Gawne B, McMahon CR, Yu R, Hero J-M, Schwarzkopf L, Krockenberger A, Douglas M, Silvester E, Mahony M, Vella K, Saikia U, Wahren C-H, Xu Z, Smith B and Cocklin C (2011) The 10 Australian ecosystems most vulnerable to tipping points. Biological Conservation 144(5): 1472–1480.
Lin BB, Khoo YB, Inman M, Wang CH, Tapsuwan S and Wang XM (2014) Assessing inundation damage and timing of adaptation: sea level rise and the complexities of land use in coastal communities. Mitigation and Adaptation Strategies for Global Change 19(5): 551–568.
Ling YC, Bush R, Grice K, Tulipani S, Berwick L and Moreau JW (2015) Distribution of iron- and sulfate-reducing bacteria across a coastal acid sulfate soil (CASS) environment: implications for passive bioremediation by tidal inundation. Frontiers in Microbiology 6.
Livesley SJ and Andrusiak SM (2012) Temperate mangrove and salt marsh sediments are a small methane and nitrous oxide source but important carbon store. Estuarine, Coastal and Shelf Science 97: 19–27.
Lovelock CE, Adame MF, Bennion V, Hayes M, O’Mara J, Reef R and Santini NS (2014) Contemporary Rates of Carbon Sequestration Through Vertical Accretion of Sediments in Mangrove Forests and Saltmarshes of South East Queensland, Australia. Estuaries and Coasts 37(3): 763–771.
Macreadie PI, Allen K, Kelaher BP, Ralph PJ and Skilbeck CG (2012) Paleoreconstruction of estuarine sediments reveal human-induced weakening of coastal carbon sinks. Global Change Biology 18(3): 891–901.
Mazumder D, Saintilan N and Williams RJ (2005) Temporal Variations in Fish Catch Using Pop Nets in Mangrove and Saltmarsh Flats at Towra Point, NSW, Australia. Wetlands Ecology and Management 13(4): 457–467.
Mazumder D, Saintilan N and Williams RJ (2006) Fish Assemblages in Three Tidal Saltmarsh and Mangrove Flats in Temperate NSW, Australia: A Comparison Based on Species Diversity and Abundance. Wetlands Ecology and Management 14(3): 201–209.
Mazumder D, Saintilan N and Williams RJ (2006) Trophic relationships between itinerant fish and crab larvae in a temperate Australian saltmarsh. Marine and Freshwater Research 57(193–199).
Mazumder D, Saintilan N and Williams RJ (2008) Zooplankton inputs and outputs in the saltmarsh at Towra Point, Australia. Wetlands Ecology and Management 17(3): 225–230.
Mazumder D, Williams RJ, Reid D, Saintilan N and Szymczak R (2008) Variability of Stable Isotope Ratios of Glassfish (Ambassis jacksoniensis) from Mangrove/Saltmarsh Environments in Southeast Australia and Implications for Choosing Sample Size. Environmental Bioindicators 3(2): 114–123.
McPhee JJ, Freewater P, Gladstone W, Platell ME and Schreider MJ (2015) Glassfish switch feeding from thalassinid larvae to crab zoeae after tidal inundation of saltmarsh. Marine and Freshwater Research 66(11): 1037.
McPhee JJ, Platell ME and Schreider MJ (2015) Trophic relay and prey switching – A stomach contents and calorimetric investigation of an ambassid fish and their saltmarsh prey. Estuarine, Coastal and Shelf Science 167: 67–74.
Melville AJ and Connolly RM (2005) Food webs supporting fish over subtropical mudflats are based on transported organic matter not in situ microalgae. Marine Biology 148(2): 363–371.
Meynecke JO, Lee SY and Duke NC (2008) Linking spatial metrics and fish catch reveals the importance of coastal wetland connectivity to inshore fisheries in Queensland, Australia. Biological Conservation 141(4): 981–996.
Meynecke JO, Lee SY, Duke NC and Warnken J (2007) Relationships between estuarine habitats and coastal fisheries in Queensland, Australia. Bulletin of Marine Science 80(3): 773–793.
Meynecke J-O, Poole GC, Werry J and Lee SY (2008) Use of PIT tag and underwater video recording in assessing estuarine fish movement in a high intertidal mangrove and salt marsh creek. Estuarine, Coastal and Shelf Science 79(1): 168–178.
Moreno-Mateos D, Power ME, Comin FA and Yockteng R (2012) Structural and Functional Loss in Restored Wetland Ecosystems. PLoS Biol 10(1).
Morton RM, Beumer JP and Pollock BR (1988) Fishes of a subtropical Australian saltmarsh and their predation upon mosquitos. Environmental Biology of Fishes 21(3): 185–194.
Ogburn DM and Zeng T (2010) Mapping the fish fry feeding prism in a saltmarsh-estuary ecotone. Oceans ‘10 conference paper, Sydney.
Oliver TSN, Rogers K, Chafer CJ and Woodroffe CD (2012) Measuring, mapping and modelling: an integrated approach to the management of mangrove and saltmarsh in the Minnamurra River estuary, southeast Australia. Wetlands Ecology and Management 20(4): 353–371.
Owers CJ, Rogers K, Mazumder D and Woodroffe CD (2016) Spatial Variation in Carbon Storage: A Case Study for Currambene Creek, NSW, Australia. Journal of Coastal Research: 1297–1301.
Pilkey OH, Cooper JAG and Lewis DA (2009) Global Distribution and Geomorphology of Fetch-Limited Barrier Islands. Journal of Coastal Research 25(4): 819-837.
Platell ME and Freewater P (2009) Importance of saltmarsh to fish species of a large south-eastern Australian estuary during a spring tide cycle. Marine and Freshwater Research 60: 936–941.
Pollard DA and Hannan JC (1994) The ecological effects of structural flood mitigation works on fish habitats and fish communities in the Lower Clarence River system of south-eastern Australia. Estuaries 17(2): 427–461.
Prahalad V, Sharples C, Kirkpatrick J and Mount R (2014) Is wind-wave fetch exposure related to soft shoreline change in swell-sheltered situations with low terrestrial sediment input? Journal of Coastal Conservation 19(1): 23–33.
Roach A (1998) Effects of predation on the size structure of the gastropod Salinator solida (Martens) populations at Towra Point, NSW, Australia. Marine and Freshwater Research 49: 779–784.
Rodríguez JF, Howe A and Saco PM (2012) Sediment, carbon and vegetation dynamics in an estuarine wetland of the Hunter estuary. Hydrology and Water Resources Symposium, NSW.
Rogers K, Saintilan N and Copeland C (2013) Reprint of Modelling wetland surface elevation dynamics and its application to forecasting the effects of sea-level rise on estuarine wetlands. Ecological Modelling 264: 27–36.
Saintilan N (2004) Relationships between estuarine geomorphology, wetland extent and fish landings in New South Wales estuaries. Estuarine, Coastal and Shelf Science 61(4): 591–601.
Saintilan N, Hossain K and Mazumder D (2007) Linkages between seagrass, mangrove and saltmarsh as fish habitat in the Botany Bay estuary, New South Wales. Wetlands Ecology and Management 15(4): 277–286.
Saintilan N, Mazumder D and Cranney K (2008) Changes to fish assemblages visiting estuarine wetlands following the closure of commercial fishing in Botany Bay, Australia. Aquatic Ecosystem Health & Management 11(4): 441–449.
Saintilan N and Rogers K (2013) The significance and vulnerability of Australian saltmarshes: implications for management in a changing climate. Marine and Freshwater Research 64(1): 66–79.
Saintilan N, Rogers K, Mazumder D and Woodroffe C (2013) Allochthonous and autochthonous contributions to carbon accumulation and carbon store in southeastern Australian coastal wetlands. Estuarine, Coastal and Shelf Science 128: 84–92.
Saintilan N and Wen L (2012) Environmental predictors of estuarine fish landings along a temperate coastline. Estuarine, Coastal and Shelf Science 113: 221–230.
Saintilan N, Wilson NC, Rogers K, Rajkaran A and Krauss KW (2014) Mangrove expansion and salt marsh decline at mangrove poleward limits. Global Change Biology 20(1): 147–157.
Sheaves M and Johnston R (2008) Influence of marine and freshwater connectivity on the dynamics of subtropical estuarine wetland fish metapopulations. Marine Ecology Progress Series 357: 225–243.
Sheaves M, Johnston R and Baker R (2016) Use of mangroves by fish: new insights from in-forest videos. Marine Ecology Progress Series 549: 167–182.
Sheaves M, Johnston R, Connolly RM and Baker R (2012) Importance of estuarine mangroves to juvenile banana prawns. Estuarine, Coastal and Shelf Science 114(0): 208–219.
Sumpton W and Greenwood J (1990) Pre-Flood and Post-flood Feeding Ecology of 4 Species of Juvenile Fish from the Logan-Albert Estuarine System, Moreton Bay, Queensland. Australian Journal of Marine and Freshwater Research 41(6): 795–806.
Svensson CJ, Hyndes GA and Lavery PS (2007) Food web analysis in two permanently open temperate estuaries: consequences of saltmarsh loss? Marine Environment Research 64(3): 286–304.
Thomas BE and Connolly R (2001) Fish use of subtropical saltmarshes in Queensland, Australia: relationships with vegetation, water depth and distance onto the marsh. Marine Ecology Progress Series 209: 275–288.
Williams RJ and Meehan AJ (2004) Focusing management needs at the sub-catchment level via assessments of change in the cover of estuarine vegetation, Port Hacking, NSW, Australia. Wetlands Ecology and Management 12: 499–518.
Wilson JG (2002) Productivity, Fisheries and Aquaculture in Temperate Estuaries. Estuarine, Coastal and Shelf Science 55(6): 953–967.
Zann L (1996) The State of the Marine Environment Report for Australia (SOMER): process, findings and perspectives. Ocean & Coastal Management 33(1-3): 63–86.
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Wegscheidl, C.J., Sheaves, M., McLeod, I.M. et al. Sustainable management of Australia’s coastal seascapes: a case for collecting and communicating quantitative evidence to inform decision-making. Wetlands Ecol Manage 25, 3–22 (2017). https://doi.org/10.1007/s11273-016-9515-x
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DOI: https://doi.org/10.1007/s11273-016-9515-x