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G. Ice, D. Neary, P. Adams (2004)
Effects of Wildfire on Soils and Watershed ProcessesJournal of Forestry, 102
C. Yule (1985)
Comparative study of the life cycles of six species of Dinotoperla (Plecoptera: Gripopterygidae) in VictoriaMarine and Freshwater Research, 36
Rinne J. N.
Short-term effects of wildfire on fishes and aquatic macroinvertebrates in the southwestern United States.
Zoë Dewson, Alexander James, R. Death (2007)
A review of the consequences of decreased flow for instream habitat and macroinvertebrates, 26
C. Spencer, Kristin Gabel, F. Hauer (2003)
Wildfire effects on stream food webs and nutrient dynamics in Glacier National Park, USAForest Ecology and Management, 178
Robert Arkle, D. Pilliod, Katherine Strickler (2010)
Fire, flow and dynamic equilibrium in stream macroinvertebrate communitiesFreshwater Biology, 55
P. Reich, B. Downes (2003)
The distribution of aquatic invertebrate egg masses in relation to physical characteristics of oviposition sites at two Victorian upland streamsFreshwater Biology, 48
R. Bradstock (2010)
A biogeographic model of fire regimes in Australia: current and future implicationsGlobal Ecology and Biogeography, 19
R. Gresswell (1999)
Fire and Aquatic Ecosystems in Forested Biomes of North AmericaTransactions of The American Fisheries Society, 128
S. Earl, D. Blinn (2003)
Effects of wildfire ash on water chemistry and biota in South-Western U.S.A. streamsFreshwater Biology, 48
S. Hurlbert (1971)
The Nonconcept of Species Diversity: A Critique and Alternative Parameters.Ecology, 52 4
R. Shakesby, S. Doerr, R. Walsh (2000)
The erosional impact of soil hydrophobicity: current problems and future research directionsJournal of Hydrology, 231
A. Boulton, P. Lake (1992)
Benthic organic matter and detritivorous macroinvertebrates in two intermittent streams in south-eastern AustraliaHydrobiologia, 241
R. Mackay (1992)
Colonization by lotic macroinvertebrates : a review of processes and patternsCanadian Journal of Fisheries and Aquatic Sciences, 49
D. Reid, G. Quinn, P. Lake, P. Reich (2008)
Terrestrial detritus supports the food webs in lowland intermittent streams of south‐eastern Australia: a stable isotope studyFreshwater Biology, 53
M. Peat, H. Chester, R. Norris (2005)
River ecosystem response to bushfire disturbance: interaction with flow regulationAustralian Forestry, 68
R. Bradstock (2008)
Effects of large fires on biodiversity in south-eastern Australia: disaster or template for diversity?International Journal of Wildland Fire, 17
J. Lyon, J. O'Connor (2008)
Smoke on the water: Can riverine fish populations recover following a catastrophic fire‐related sediment slug?Austral Ecology, 33
Hynes H. Hynes M. E.
The life histories of many of the
I. Verkaik, M. Rieradevall, S. Cooper, J. Melack, T. Dudley, N. Prat (2013)
Fire as a disturbance in mediterranean climate streamsHydrobiologia, 719
G. Minshall (2003)
Responses of stream benthic macroinvertebrates to fireForest Ecology and Management, 178
P. Lake (2003)
Ecological effects of perturbation by drought in flowing watersFreshwater Biology, 48
F. Chiew, T. McMahon (2002)
Modelling the impacts of climate change on Australian streamflowHydrological Processes, 16
H. Hynes, Meagan Hynes (1975)
The life histories of many of the stoneflies (Plecoptera) of south-eastern mainland AustraliaMarine and Freshwater Research, 26
T. Mihuc, G. Minshall (1995)
TROPHIC GENERALISTS VS. TROPHIC SPECIALISTS: IMPLICATIONS FOR FOOD WEB DYNAMICS IN POST-FIRE STREAMS'Ecology, 76
Jing-Jie Yu, G. Fu, W. Cai, T. Cowan (2010)
Impacts of precipitation and temperature changes on annual streamflow in the Murray–Darling BasinWater International, 35
Mireia Escalé (2009)
Efectes d'un incendi forestal en una riera mediterrània (Sant Llorenç del Munt, 2003)
R. Bradstock, J. Williams, A. Gill (2009)
Flammable Australia: The Fire Regimes and Biodiversity of a Continent
A. Boulton, P. Lake, J. Lancaster, R. Briers (2008)
Effects of drought on stream insects and its ecological consequences
C. Woodhouse, J. Overpeck (1998)
2000 Years of Drought Variability in the Central United StatesBulletin of the American Meteorological Society, 79
A. Boulton (1991)
Eucalypt leaf decomposition in an intermittent stream in south-eastern AustraliaHydrobiologia, 211
C. Mellon, M. Wipfli, Judith Li (2008)
Effects of forest fire on headwater stream macroinvertebrate communities in eastern Washington, U.S.A.Freshwater Biology, 53
N. Vieira, W. Clements, Lynette Guevara, B. Jacobs (2004)
Resistance and resilience of stream insect communities to repeated hydrologic disturbances after a wildfireFreshwater Biology, 49
Allyson Williams, D. Karoly, N. Tapper (2001)
The Sensitivity of Australian Fire Danger to Climate ChangeClimatic Change, 49
P. Lane, G. Sheridan, P. Noske (2006)
Changes in sediment loads and discharge from small mountain catchments following wildfire in south eastern AustraliaJournal of Hydrology, 331
D. Verdon‐Kidd, A. Kiem (2009)
Nature and causes of protracted droughts in southeast Australia: Comparison between the Federation, WWII, and Big Dry droughtsGeophysical Research Letters, 36
A. Cowell, T. Matthews, P. Lind (2006)
Effect of fire on benthic algal assemblage structure and recolonization in intermittent streamsAustral Ecology, 31
G. Minshall, C. Robinson, D. Lawrence (1997)
Postfire responses of lotic ecosystems in Yellowstone National Park, U.S.A.Canadian Journal of Fisheries and Aquatic Sciences, 54
E. Chester, B. Robson (2011)
Drought refuges, spatial scale and recolonisation by invertebrates in non‐perennial streamsFreshwater Biology, 56
B. Murphy, B. Timbal (2008)
A review of recent climate variability and climate change in southeastern AustraliaInternational Journal of Climatology, 28
A. Boulton (2003)
Parallels and contrasts in the effects of drought on stream macroinvertebrate assemblagesFreshwater Biology, 48
J. Rinne (1996)
Management Briefs: Short‐Term Effects of Wildfire on Fishes and Aquatic Macroinvertebrates in the Southwestern United StatesNorth American Journal of Fisheries Management, 16
Grant hose, Peter Jones, R. Lim (2004)
Hyporheic macroinvertebrates in riffle and pool areas of temporary streams in south eastern AustraliaHydrobiologia, 532
J. Thomson, N. Bond, S. Cunningham, L. Metzeling, P. Reich, R. Thompson, R. Nally (2012)
The influences of climatic variation and vegetation on stream biota: lessons from the Big Dry in southeastern AustraliaGlobal Change Biology, 18
N. Bond, P. Lake, A. Arthington (2008)
The impacts of drought on freshwater ecosystems: an Australian perspectiveHydrobiologia, 600
P. Nyman, G. Sheridan, H. Smith, P. Lane (2011)
Evidence of debris flow occurrence after wildfire in upland catchments of south-east AustraliaGeomorphology, 125
P. Lake (2011)
Drought and Aquatic Ecosystems: Effects and Responses
C. Ummenhofer, M. England, P. McIntosh, G. Meyers, M. Pook, J. Risbey, Alexander Gupta, A. Taschetto (2009)
What causes southeast Australia's worst droughts?Geophysical Research Letters, 36
S. Townsend, M. Douglas (2004)
The effect of a wildfire on stream water quality and catchment water yield in a tropical savanna excluded from fire for 10 years (Kakadu National Park, North Australia).Water research, 38 13
R. Shakesby, P. Wallbrink, S. Doerr, P. English, C. Chafer, G. Humphreys, W. Blake, K. Tomkins (2007)
Distinctiveness of wildfire effects on soil erosion in south-east Australian eucalypt forests assessed in a global contextForest Ecology and Management, 238
L. Debano (2000)
The role of fire and soil heating on water repellency in wildland environments: a reviewJournal of Hydrology, 231
C. Robinson, S. Rushforth, G. Minshall (1994)
DIATOM ASSEMBLAGES OF STREAMS INFLUENCED BY WILDFIRE 1Journal of Phycology, 30
G. Closs, P. Lake (1994)
Spatial and Temporal Variation in the Structure of an Intermittent-Stream Food WebEcological Monographs, 64
S. Pyne (1992)
Burning Bush: A Fire History Of Australia
B. Robson, E. Chester, C. Austin (2011)
Why life history information matters: drought refuges and macroinvertebrate persistence in non-perennial streams subject to a drier climateMarine and Freshwater Research, 62
Rachel Malison, C. Baxter (2010)
Effects of wildfire of varying severity on benthic stream insect assemblages and emergence, 29
A. Maamri, H. Chergui, E. Pattee (1997)
Leaf litter processing in a temporary northeastern Moroccan riverArchiv Fur Hydrobiologie, 140
H. Smith, G. Sheridan, P. Lane, P. Nyman, S. Haydon (2011)
Wildfire effects on water quality in forest catchments: A review with implications for water supplyJournal of Hydrology, 396
G. Minshall, T. Royer, C. Robinson, L. Wallace (2004)
Stream ecosystem responses to fire: the first ten years.
B. Pekin, M. Boer, C. Macfarlane, P. Grierson (2009)
Impacts of increased fire frequency and aridity on eucalypt forest structure, biomass and composition in southwest AustraliaForest Ecology and Management, 258
J. Smith, R. Whelan (1996)
The Ecology of Fire.Ecology, 77
Bushfires occur in most environments in Australia and yet there are few studies about fire effects on aquatic ecosystems. To study the effects of fire on aquatic macroinvertebrates we sampled three streams in burnt catchments (i.e. burnt) and three streams in unburnt catchments (i.e. control), nine months after severe bushfires in northern Victoria. The sampling period coincided with a severe and prolonged period of drought during the 8th year of a series of thirteen consecutive years of below average rainfall. There was a significant effect of bushfire on macroinvertebrate richness, composition and function. At the burnt sites, there was lower taxon richness but a 4-fold increase in abundance, which was mainly to the result of increases in taxa such as Chironomidae, Simuliidae, Dinotoperla sp. and Taschorema sp. A higher percentage of gathering collectors was found at the burnt sites, whereas scrapers and shredders were co-dominant in the control streams. The responses of the macroinvertebrates may have been impaired by post-fire persistence of low flows associated with the continuing drought, in comparison with the rapid recovery of the catchment overstorey vegetation (Eucalyptus spp.). The consequences of the megadrought combined with catchment bushfires, have no doubt reduced the resilience of the macroinvertebrate communities.
Marine & Freshwater Research – CSIRO Publishing
Published: Oct 18, 2013
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