Aquatic ecosystem response to climate, fire, and the demise of montane rainforest, Tasmania, Australia
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[1] Fletcher Michael-Shawn,et al. The influence of climatic change, fire and species invasion on a Tasmanian temperate rainforest system over the past 18,000 years , 2021 .
[2] D. Bowman,et al. Lack of reliable post-fire recovery mechanisms makes the iconic Tasmanian conifer Athrotaxis cupressoides susceptible to population decline , 2021 .
[3] Carl R. Gosper,et al. High fire frequency and the impact of the 2019–2020 megafires on Australian plant diversity , 2021, Diversity and Distributions.
[4] R. Bradstock,et al. The 2019/2020 mega-fires exposed Australian ecosystems to an unprecedented extent of high-severity fire , 2021 .
[5] D. Bush,et al. Implications of the 2019–2020 megafires for the biogeography and conservation of Australian vegetation , 2021, Nature Communications.
[6] Diatom Analysis , 2021, Encyclopedic Dictionary of Archaeology.
[7] Sam W. Wood,et al. The role of species composition in the emergence of alternate vegetation states in a temperate rainforest system , 2020, Landscape Ecology.
[8] Q. Hua,et al. SHCal20 Southern Hemisphere Calibration, 0–55,000 Years cal BP , 2020, Radiocarbon.
[9] R. Vautard,et al. Attribution of the Australian bushfire risk to anthropogenic climate change , 2020, Natural Hazards and Earth System Sciences.
[10] C. W. Bowman,et al. Fire caused demographic attrition of the Tasmanian palaeoendemic conifer Athrotaxis cupressoides , 2019, Austral Ecology.
[11] H. Heijnis,et al. The long-term impacts of climate and fire on catchment processes and aquatic ecosystem response in Tasmania, Australia , 2019, Quaternary Science Reviews.
[12] Sarah Harris,et al. Understanding the variability of Australian fire weather between 1973 and 2017 , 2019, PloS one.
[13] H. Heijnis,et al. The influence of fine‐scale topography on the impacts of Holocene fire in a Tasmanian montane landscape , 2019, Journal of Quaternary Science.
[14] S. Haberle,et al. Climate change reduces resilience to fire in subalpine rainforests , 2019, Global change biology.
[15] M. Steinitz‐Kannan,et al. Long-term and regional perspectives on recent change in lacustrine diatom communities in the tropical Andes , 2018, Journal of Paleolimnology.
[16] P. Gell,et al. Biogeochemical Responses to Holocene Catchment‐Lake Dynamics in the Tasmanian World Heritage Area, Australia , 2018 .
[17] H. Heijnis,et al. The indirect response of an aquatic ecosystem to long‐term climate‐driven terrestrial vegetation in a subalpine temperate lake , 2018 .
[18] D. Bowman,et al. The changing role of fire in conifer-dominated temperate rainforest through the last 14,000 years , 2018 .
[19] H. Heijnis,et al. Variance and Rate‐of‐Change as Early Warning Signals for a Critical Transition in an Aquatic Ecosystem State: A Test Case From Tasmania, Australia , 2018 .
[20] J. Christen,et al. Bayesian Analysis of $$^{210}$$210Pb Dating , 2017, Journal of Agricultural, Biological and Environmental Statistics.
[21] Y. Copard,et al. Hyperspectral core logging for fire reconstruction studies , 2018, Journal of Paleolimnology.
[22] S. Haberle,et al. Late-glacial and Holocene records of fire and vegetation from Cradle Mountain National Park, Tasmania, Australia , 2017 .
[23] K. Dowling,et al. Risk of post-fire metal mobilization into surface water resources: A review. , 2017, The Science of the total environment.
[24] M. Fletcher,et al. Long-term climate dynamics in the extra-tropics of the South Pacific revealed from sedimentary charcoal analysis , 2017 .
[25] J. Saros,et al. Nutrient limitation status of Arctic lakes affects the responses of Cyclotella sensu lato diatom species to light: implications for distribution patterns , 2017, Polar Biology.
[26] Matthew V. Talluto,et al. Extinction debt and colonization credit delay range shifts of eastern North American trees , 2017, Nature Ecology & Evolution.
[27] Baek‐Min Kim,et al. Amplitude-dependent relationship between the Southern Annular Mode and the El Niño Southern Oscillation in austral summer , 2017, Asia-Pacific Journal of Atmospheric Sciences.
[28] H. Heijnis,et al. An early onset of ENSO influence in the extra-tropics of the southwest Pacific inferred from a 14, 600 year high resolution multi-proxy record from Paddy's Lake, northwest Tasmania , 2017 .
[29] N. Anderson,et al. A whole‐lake experiment confirms a small centric diatom species as an indicator of changing lake thermal structure , 2016 .
[30] P. Higuera,et al. Wildfires and geochemical change in a subalpine forest over the past six millennia , 2016 .
[31] S. Haberle,et al. A 17,000-Year-Long Record of Vegetation and Fire from Cradle Mountain National Park, Tasmania , 2016, Front. Ecol. Evol..
[32] M. Fletcher,et al. The Southern Annular Mode determines interannual and centennial‐scale fire activity in temperate southwest Tasmania, Australia , 2016 .
[33] S. Hutchinson,et al. The role of fire in landscape dynamics: An example of two sediment records from the Rodna Mountains, northern Romanian Carpathians , 2016 .
[34] R. Hill,et al. Why we should retain Nothofagus sensu lato , 2015, Australian Systematic Botany.
[35] P. Higuera,et al. Sensitivity and complacency of sedimentary biogeochemical records to climate-mediated forest disturbances , 2015 .
[36] Sam W. Wood,et al. Effects of high‐severity fire drove the population collapse of the subalpine Tasmanian endemic conifer Athrotaxis cupressoides , 2015, Global change biology.
[37] P. Higuera,et al. Biogeochemical impacts of wildfires over four millennia in a Rocky Mountain subalpine watershed. , 2014, The New phytologist.
[38] B. Wolfe,et al. The legacy of mid‐Holocene fire on a Tasmanian montane landscape , 2014 .
[39] N. Anderson,et al. Response of Cyclotella species to nutrients and incubation depth in Arctic lakes , 2014 .
[40] M. Grosjean,et al. A 950 yr temperature reconstruction from Duckhole Lake, southern Tasmania, Australia , 2013 .
[41] J. Kirkpatrick,et al. Organic soils provide evidence of spatial variation in human‐induced vegetation change following European occupation of Tasmania , 2013 .
[42] O. Sass,et al. Soil properties and charcoal dynamics of burnt soils in the Tyrolean Limestone Alps , 2012 .
[43] D. Engstrom,et al. Climate-induced changes in lake ecosystem structure inferred from coupled neo- and paleoecological approaches. , 2012, Ecology.
[44] M. Grosjean,et al. Late Holocene changes in precipitation in northwest Tasmania and their potential links to shifts in the Southern Hemisphere westerly winds , 2012, GPC 2012.
[45] J. Kirkpatrick,et al. Topographic variation in burning-induced loss of carbon from organic soils in Tasmanian moorlands , 2011 .
[46] Q. Hua,et al. Fire-patterned vegetation and the development of organic soils in the lowland vegetation mosaics of south-west Tasmania , 2011 .
[47] P. Nyman,et al. Wildfire effects on water quality in forest catchments: A review with implications for water supply , 2011 .
[48] W. Dean,et al. A Holocene record of endogenic iron and manganese precipitation and vegetation history in a lake-fen complex in northwestern Minnesota , 2011, Journal of Paleolimnology.
[49] Sam W. Wood,et al. Alternative stable states and the role of fire–vegetation–soil feedbacks in the temperate wilderness of southwest Tasmania , 2011, Landscape Ecology.
[50] L. Cwynar,et al. A test of Tyler’s Line – response of chironomids to a pH gradient in Tasmania and their potential as a proxy to infer past changes in pH , 2010 .
[51] S. Feldstein,et al. The Impact of ENSO on Wave Breaking and Southern Annular Mode Events , 2010 .
[52] L. W. Kallemeyn,et al. Impacts of settlement, damming, and hydromanagement in two boreal lakes: a comparative paleolimnological study , 2009 .
[53] M. England,et al. Interannual Tasmanian Rainfall Variability Associated with Large-Scale Climate Modes , 2009 .
[54] Sam W. Wood,et al. Fire-driven land cover change in Australia and W.D. Jackson’s theory of the fire ecology of southwest Tasmania , 2009 .
[55] H. Visscher,et al. Integration of proxy data and model scenarios for the mid-Holocene onset of modern ENSO variability , 2008 .
[56] I. Salter,et al. Controls on sediment geochemistry in the Crozet region , 2007 .
[57] G. Orians,et al. Ecology of Australia: the effects of nutrient‐poor soils and intense fires , 2007, Biological reviews of the Cambridge Philosophical Society.
[58] Michael H. Glantz,et al. ENSO as an Integrating Concept in Earth Science , 2006, Science.
[59] Benoit Rivard,et al. Experimental calibration of lake-sediment spectral reflectance to chlorophyll a concentrations: methodology and paleolimnological validation , 2006 .
[60] M. Leng,et al. A review of coastal palaeoclimate and relative sea-level reconstructions using δ13C and C/N ratios in organic material , 2006 .
[61] B. Wolfe,et al. ISOTOPES IN LAKE SEDIMENTS , 2006 .
[62] D. Richardson,et al. Effects of Invasive Alien Plants on Fire Regimes , 2004 .
[63] P. Tyler. 13. Endemism in freshwater algae , 1996, Hydrobiologia.
[64] R. Shiel,et al. Reconnaissance limnology of Tasmania VIII. Tasmanian coastal lagoons - epicentres of endemism in the Australian aquatic microbiota , 2004 .
[65] A. Lotter,et al. 9000 years of geochemical evolution of lithogenic major and trace elements in the sediment of an alpine lake – the role of climate, vegetation, and land-use history , 2003 .
[66] F. Sirocko,et al. In-situ reflectance spectroscopy – analysing techniques for high-resolution pigment logging in sediment cores , 2002 .
[67] B. Wolfe,et al. Carbon and Oxygen Isotope Analysis of Lake Sediment Cellulose: Methods and Applications , 2002 .
[68] M. Talbot. Nitrogen Isotopes in Palaeolimnology , 2002 .
[69] J. L. Teranes,et al. Sediment Organic Matter , 2002 .
[70] E. Colhoun,et al. Late‐glacial and Holocene record of vegetation and climate from Cynthia Bay, Lake St Clair, Tasmania , 2000 .
[71] E. Prepas,et al. Forest fire induced impacts on phosphorus, nitrogen, and chlorophyll a concentrations in boreal subarctic lakes of northern Alberta , 2000 .
[72] M. Douglas,et al. The effect of three fire regimes on stream water quality, water yield and export coefficients in a tropical savanna (northern Australia) , 2000 .
[73] M. Talbot,et al. The Late Pleistocene - Holocene palaeolimnology of Lake Victoria, East Africa, based upon elemental and isotopic analyses of sedimentary organic matter , 2000 .
[74] Dirk Verschuren,et al. Rainfall and drought in equatorial east Africa during the past 1,100 years , 2000, Nature.
[75] B. Wolfe,et al. Changes in carbon and nitrogen cycling during tree-line retreat recorded in the isotopic content of lacustrine organic matter, western Taimyr Peninsula, Russia , 1999 .
[76] R. Brugam,et al. A diatom-inferred water depth reconstruction for an Upper Peninsula, Michigan, lake , 1998 .
[77] T. Korsman,et al. Forest fire and lake‐water acidity in a northern Swedish boreal area: Holocene changes in lake‐water quality at Makkassjön , 1998 .
[78] W. Vyverman,et al. Distribution of benthic diatom assemblages in Tasmanian highland lakes and their possible use as indicators of environmental changes , 1996 .
[79] A. Korhola,et al. FIRE-INDUCED PH RISE IN A NATURALLY ACID HILL-TOP LAKE, SOUTHERN FINLAND :A PALAEOECOLOGICAL SURVEY , 1996 .
[80] P. Tyler. A lakeland from the dreamtime the second founders' lecture , 1992 .
[81] T. Johannessen,et al. A high resolution palaeoclimatic record for the last 27,500 years in tropical West Africa from the carbon and nitrogen isotopic composition of lacustrine organic matter , 1992 .
[82] H. U. Ling,et al. Freshwater dinoflagellates of Tasmania, a survey of taxonomy and distribution , 1989 .
[83] R. Hecky,et al. Hypothesized resource relationships among African planktonic diatoms , 1986 .
[84] D. Bowman,et al. Vegetation‐soil relations in the lowlands of south‐west Tasmania , 1986 .
[85] J. Kirkpatrick,et al. The impact of fire on Tasmanian alpine vegetation and soils , 1984 .
[86] M. Brown,et al. Vegetation of an alkaline pan — acidic peat mosaic in the Hardwood River Valley, Tasmania , 1982 .
[87] P. Tyler,et al. Anomalous stratification behaviour of Lake Gorden, headwater reservoir of the lower Gorden River, Tasmania , 1982 .
[88] D. Bowman,et al. Vegetation succession in Southwest Tasmania , 1981 .
[89] M. Macphail. Vegetation and Climates in Southern Tasmania since the Last Glaciation , 1979, Quaternary Research.
[90] B. Knott,et al. A Preliminary Observation on the Littoral Rock Fauna of Hartz Lake and Hartz Creek, Southern Tasmania, with Notes on the Water Chemistry of some Neighbouring Lakes , 1978 .