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1. Protocol for extracting flow hydrograph shape metrics for use in time-series flood hydrology analysis.

Author

Amir Mohammad Arash, Kirstie Fryirs, and Timothy J Ralph

Subjects
Medicine, Science
Abstract

The shape characteristics of flow hydrographs hold essential information for understanding, monitoring and assessing changes in flow and flood hydrology at reach and catchment scales. However, the analysis of individual hydrographs is time consuming, making the analysis of hundreds or thousands of them unachievable. A method or protocol is needed to ensure that the datasets being generated, and the metrics produced, have been consistently derived and validated. In this lab protocol, we present workflows in Python for extracting flow hydrographs with any available temporal resolution from any Open Access or publicly available gauging station records. The workflow identifies morphologically-defined flow and flood types (i.e. in-channel fresh, high flow and overbank flood) and uses them to classify hydrographs. It then calculates several at-a-station and upstream-to-downstream hydrograph shape metrics including kurtosis, skewness, peak hydrograph stage, peak arrival time, rate-of-rise, peak-to-peak travel time, flood wave celerity, flood peak attenuation, and flood wave attenuation index. Some metrics require GIS-derived data, such as catchment area and upstream-to-downstream channel distance between gauges. The output dataset provides quantified hydrograph shape metrics which can be used to track changes in flow and flood hydrographs over time, or to characterise the flow and flood hydrology of catchments and regions. The workflows are flexible enough to allow for additional hydrograph shape indicators to be added or swapped out, or to use a different hydrograph classification method that suits local conditions. The protocol could be considered a change detection tool to identify where changes in hydrology are occurring and where to target more sophisticated modelling exercises to explain the changes detected. We demonstrate the workflow using 117 Open Access gauging station records that are available for coastal rivers of New South Wales (NSW), Australia.

Published
2025
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2. Macro-charcoal accumulation in floodplain wetlands: Problems and prospects for reconstruction of fire regimes and environmental conditions.

Author

Bradley P Graves, Timothy J Ralph, Paul P Hesse, Kira E Westaway, Tsuyoshi Kobayashi, Patricia S Gadd, and Debashish Mazumder

Subjects
Medicine, Science
Abstract

Floodplain wetland ecosystems respond dynamically to flooding, fire and geomorphological processes. We employed a combined geomorphological and environmental proxy approach to assess allochthonous and autochthonous macro-charcoal accumulation in the Macquarie Marshes, Australia, with implications for the reconstruction of fire regimes and environmental conditions in large, open-system wetlands. After accounting for fluvial macro-charcoal flux (1.05 ± 0.32 no. cm-2 a-1), autochthonous macro-charcoal in ~1 m deep sediment profiles spanning ~1.7 ka were highly variable and inconsistent between cores and wetlands (concentrations from 0 to 438 no. cm-3, mean accumulation rates from 0 to 3.86 no. cm-2 a-1). A positive correlation existed between the number of recent fires, satellite-observed ignition points, and macro-charcoal concentrations at the surface of the wetlands. Sedimentology, geochemistry, and carbon stable isotopes (δ13C range -15 to -25 ‰) were similar in all cores from both wetlands and varied little with depth. Application of macro-charcoal and other environmental proxy techniques is inherently difficult in large, dynamic wetland systems due to variations in charcoal sources, sediment and charcoal deposition rates, and taphonomic processes. Major problems facing fire history reconstruction using macro-charcoal records in these wetlands include: (1) spatial and temporal variations in fire activity and ash and charcoal products within the wetlands, (2) variations in allochthonous inputs of charcoal from upstream sources, (3) tendency for geomorphic dynamism to affect flow dispersal and sediment and charcoal accumulation, and (4) propensity for post-depositional modification and/or destruction of macro-charcoal by flooding and taphonomic processes. Recognition of complex fire-climate-hydrology-vegetation interactions is essential. High-resolution, multifaceted approaches with reliable geochronologies are required to assess spatial and temporal patterns of fire and to reconstruct in order to interpret wetland fire regimes.

Published
2019
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4. The Egyptian pyramid chain was built along the now abandoned Ahramat Nile Branch

Author

Eman Ghoneim, Timothy J. Ralph, Suzanne Onstine, Raghda El-Behaedi, Gad El-Qady, Amr S. Fahil, Mahfooz Hafez, Magdy Atya, Mohamed Ebrahim, Ashraf Khozym, and Mohamed S. Fathy

Subjects
Geology, QE1-996.5, Environmental sciences, GE1-350
Abstract

Abstract The largest pyramid field in Egypt is clustered along a narrow desert strip, yet no convincing explanation as to why these pyramids are concentrated in this specific locality has been given so far. Here we use radar satellite imagery, in conjunction with geophysical data and deep soil coring, to investigate the subsurface structure and sedimentology in the Nile Valley next to these pyramids. We identify segments of a major extinct Nile branch, which we name The Ahramat Branch, running at the foothills of the Western Desert Plateau, where the majority of the pyramids lie. Many of the pyramids, dating to the Old and Middle Kingdoms, have causeways that lead to the branch and terminate with Valley Temples which may have acted as river harbors along it in the past. We suggest that The Ahramat Branch played a role in the monuments’ construction and that it was simultaneously active and used as a transportation waterway for workmen and building materials to the pyramids’ sites.

Published
2024
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6. Soil carbon dynamics and aquatic metabolism of a wet–dry tropics wetland system

Author

Timothy J. Ralph, Danelle Agnew, Kirstie Fryirs, and Tsuyoshi Kobayashi

Subjects
0106 biological sciences, Hydrology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 010604 marine biology & hydrobiology, Aquatic ecosystem, food and beverages, Carbon sink, Wetland, Soil carbon, 15. Life on land, Management, Monitoring, Policy and Law, Aquatic Science, Carbon sequestration, Plankton, 01 natural sciences, 6. Clean water, Carbon cycle, 13. Climate action, Wetland conservation, Environmental science, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences
Abstract

Freshwater wetlands are a key component of the global carbon cycle. Wet–dry tropics wetlands function as wet-season carbon sinks and dry-season carbon sources with low aquatic metabolism controlled by predictably seasonal, yet magnitude-variable flow regimes and inundation patterns. However, these dynamics have not been adequately quantified in Australia’s relatively unmodified wet–dry tropics freshwater wetlands. A baseline understanding is required before analysis of land-use or climate change impacts on these aquatic ecosystems can occur. This study characterises geomorphology and sedimentology within a seasonally connected wet–dry tropics freshwater wetland system at Kings Plains, Queensland, Australia, and quantifies soil carbon stocks and wet- and dry-season aquatic metabolism. Soil carbon stocks derived from loss-on-ignition on samples to 1 m depth were 51.5 ± 7.8 kg C m−2, higher than other wet–dry tropics wetlands globally, with potential for long-term retention at greater depths. Gross primary productivity of phytoplankton (GPP) and planktonic respiration (PR) measured through biological oxygen demand bottle experiments in the water column of sediment inundated under laboratory conditions show overall low GPP and PR in both wet- and dry-season samples (all wetland samples were heterotrophic with GPP/PR

Published
2021
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11. Application of feature selection methods and machine learning algorithms for saltmarsh biomass estimation using Worldview-2 imagery

Author

Timothy J. Ralph, Israt Jahan Diti, Neil Saintilan, Hsing-Chung Chang, and Sikdar M. M. Rasel

Subjects
Marsh, 010504 meteorology & atmospheric sciences, Computer science, Geography, Planning and Development, 0211 other engineering and technologies, Climate change, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Feature selection, 02 engineering and technology, Machine learning, computer.software_genre, 01 natural sciences, Resilience (network), 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Water Science and Technology, Biomass (ecology), geography, geography.geographical_feature_category, business.industry, Random forest, Salt marsh, Artificial intelligence, Scale (map), business, computer
Abstract

Assessing large scale plant productivity of coastal marshes is essential to understand the resilience of these systems to climate change. Two machine learning approaches, random forest (RF) and sup...

Published
2019
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13. Author Correction: Identifying threshold responses of Australian dryland rivers to future hydroclimatic change

Author

Zacchary T. Larkin, Alexandra J. R. Carthey, Kirstie Fryirs, Timothy J. Ralph, and Stephen Tooth

Subjects
Multidisciplinary, Geography, Published Erratum, lcsh:R, MEDLINE, lcsh:Medicine, lcsh:Q, Physical geography, lcsh:Science, Author Correction
Abstract

Rivers provide crucial ecosystem services in water-stressed drylands. Australian dryland rivers are geomorphologically diverse, ranging from through-going, single channels to discontinuous, multi-channelled systems, yet we have limited understanding of their sensitivity to future hydroclimatic changes. Here, we characterise for the first time the geomorphology of 29 dryland rivers with catchments across a humid to arid gradient covering1,800,000 km

Published
2020

14. Identifying threshold responses of Australian dryland rivers to future hydroclimatic change

Author

Timothy J. Ralph, Kirstie Fryirs, Alexandra J. R. Carthey, Zacchary T. Larkin, and Stephen Tooth

Subjects
Multidisciplinary, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Science, Drainage basin, Geomorphology, Alluvial river, 010502 geochemistry & geophysics, 01 natural sciences, Arid, Article, Ecosystem services, Geography, Medicine, Physical geography, Hydrology, Climate-change impacts, 0105 earth and related environmental sciences
Abstract

Rivers provide crucial ecosystem services in water-stressed drylands. Australian dryland rivers are geomorphologically diverse, ranging from through-going, single channels to discontinuous, multi-channelled systems, yet we have limited understanding of their sensitivity to future hydroclimatic changes. Here, we characterise for the first time the geomorphology of 29 dryland rivers with catchments across a humid to arid gradient covering >1,800,000 km2 of continental eastern and central Australia. Statistical separation of five specific dominantly alluvial river types and quantification of their present-day catchment hydroclimates enables identification of potential thresholds of change. Projected aridity increases across eastern Australia by 2070 (RCP4.5) will result in ~80% of the dryland rivers crossing a threshold from one type to another, manifesting in major geomorphological changes. Dramatic cases will see currently through-going rivers (e.g. Murrumbidgee, Macintyre) experience step changes towards greater discontinuity, characterised by pronounced downstream declines in channel size and local termination. Expanding our approach to include other river styles (e.g. mixed bedrock-alluvial) would allow similar analyses of dryland rivers globally where hydroclimate is an important driver of change. Early identification of dryland river responses to future hydroclimatic change has far-reaching implications for the ~2 billion people that live in drylands and rely on riverine ecosystem services.

Published
2020

15. Palaeohydrology of lowland rivers in the Murray-Darling Basin, Australia

Author

Kira E. Westaway, Zacchary T. Larkin, Kirstie Fryirs, Rory Williams, Timothy J. Ralph, Paul Hesse, and Will Farebrother

Subjects
010506 paleontology, Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Discharge, Drainage basin, Geology, Structural basin, Monsoon, 01 natural sciences, Palaeochannel, Precipitation, Physical geography, Quaternary, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences
Abstract

This study derives a new function describing the relationship of channel bankfull discharge (Qbf) to channel width in modern rivers of the Murray-Darling Basin (MDB) of southeastern Australia and applies this to dated palaeochannels of seven rivers to quantify late Quaternary discharge history in this important basin. All rivers show high MIS3 and MIS2 Qbf, declining in the Holocene. The Qbf of modern MDB rivers is correlated with total catchment precipitation but comparison with palaeochannel Qbf estimates shows that while enhanced runoff efficiency is necessary to account for much larger late Pleistocene palaeochannels, either lower or higher precipitation rates could have prevailed. A strong association between relative palaeo- Qbf enhancement and temperature suggests a temperature-mediated mechanism controlling river discharge, such as the fraction of precipitation stored as snow and thawing in spring, the enhancement of orographic rainfall, or CO2 feedbacks with vegetation cover. Significantly enhanced MIS3 Qbf requires an additional mechanism, such as increased rainfall. These findings are consistent with others that increased moisture availability was associated with past colder climates, although this was not necessarily the result of enhanced precipitation.

Published
2018
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16. Dramatic reduction in size of the lowland Macquarie River in response to Late Quaternary climate-driven hydrologic change

Author

David Yonge, Rory Williams, Timothy J. Ralph, Kirstie Fryirs, Paul Hesse, Kira E. Westaway, and Zacchary T. Larkin

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Discharge, Drainage basin, Sediment, Fluvial, 010502 geochemistry & geophysics, 01 natural sciences, Arts and Humanities (miscellaneous), Meander, Palaeochannel, General Earth and Planetary Sciences, Physical geography, Quaternary, Holocene, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Palaeochannels of lowland rivers provide a means of investigating the sensitivity of river response to climate-driven hydrologic change. About 80 palaeochannels of the lower Macquarie River of southeastern Australia record the evolution of this distributive fluvial system. Six Macquarie palaeochannels were dated by single-grain optically stimulated luminescence. The largest of the palaeochannels (Quombothoo, median age 54 ka) was on average 284 m wide, 12 times wider than the modern river (24 m) and with 21 times greater meander wavelength. Palaeo-discharge then declined, resulting in a younger, narrower, group of palaeochannels, Bibbijibbery (125 m wide, 34 ka), Billybingbone (92 m, 20 ka), Milmiland (112 m, 22 ka), and Mundadoo (86 m, 5.6 ka). Yet these channels were still much larger than the modern river and were continuous downstream to the confluence with the Barwon-Darling River. At 5.5 ka, a further decrease in river discharge led to the formation of the narrow modern river, the ecologically important Macquarie Marshes, and Marra Creek palaeochannel (31 m, 2.1 ka) and diminished sediment delivery to the Barwon-Darling River as palaeo-discharge fell further. The hydrologic changes suggest precipitation was a driving forcing on catchment discharge in addition to a temperature-driven runoff response.

Published
2018
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17. Dunphy Lake in Warrumbungle National Park, NSW: aquatic animal community after the Wambelong fire in 2013

Author

Tsuyoshi Kobayashi, Jan Miller, Gunther Theischinger, Timothy J. Ralph, Stephen J. Jacobs, Simon J. Hunter, and Jamie Lobb

Subjects
Geography, biology, Ecology, National park, Biodiversity, Sediment, Animal Science and Zoology, Aquatic animal, Terrestrial ecosystem, Dragonfly, biology.organism_classification, Litoria rubella, Invertebrate
Abstract

Fires are a common occurrence in Australian terrestrial ecosystems. A large fire occurred in January 2013 within and adjacent to the Warrumbungle National Park, near Coonabarabran in NSW, burning over 560 km2 of the park and surrounding region (the Wambelong fire). The Wambelong fire affected Dunphy Lake, the only lake in the park. In this study, we assessed the post-fire aquatic animal community of the lake in March and September 2014. At the times of sampling the lake was largely dry and had only small isolated pools. We found 53 invertebrate taxa including the larvae of the dragonfly Austrogynacantha heterogena and one vertebrate species (larvae of the frog Litoria rubella) in the pool-water samples. Artificial inundation of the lake sediment samples under laboratory conditions led to the emergence of 31 taxa, totalling 62 taxa in the lake overall. Most taxa found in the lake are opportunistic and characteristic of those in still-water bodies. Dunphy Lake seems to be highly resilient in sustai...

Published
2018
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18. Latitude and elevation as factors controlling occurrence of calanoid copepods in marginal lotic waters in New South Wales, Australia

Author

Timothy J. Ralph, Tsuyoshi Kobayashi, Cheryl Tang, Luke Stone, Ian A. E. Bayly, Jan Miller, and Simon J. Hunter

Subjects
0106 biological sciences, Calamoecia, River ecosystem, biology, Centropagidae, Range (biology), Ecology, 010604 marine biology & hydrobiology, Lake ecosystem, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Crustacean, Latitude, Geography, Habitat, Ecology, Evolution, Behavior and Systematics
Abstract

Freshwater calanoid copepods develop abundant populations in lentic water bodies such as lakes, reservoirs and lagoons. In this study, we examined the potential habitat value of edges in lotic systems such as creeks and rivers where waters tend to stagnate, providing lentic-like environments. We examined a total of 353 edge samples collected from 321 sites across the state of New South Wales, Australia, with latitudes in the range 28.3–37.4°S and elevations in the range 2–1834 m above sea level. Of the total samples examined, calanoid copepods were found in 94 samples, with the frequency of occurrences of species decreasing in the order: Boeckella fluvialis Henry, B. triarticulata (Thomson), Gladioferens spinosus Henry, G. pectinatus (Brady), B. major Searle, B. minuta Sars, and Calamoecia lucasi Brady. The probability of occurrence of the calanoid copepods was related negatively to both latitude (as absolute values) and elevation, based on logistic regression models. We conclude that the edges of many lotic systems provide additional habitats for some species of freshwater calanoid copepods, with constraints on their distributions along latitudinal and elevational gradients.

Published
2018
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19. A nested hierarchical perspective to enhance interpretations and communication in fluvial geomorphology for use in water resources management: Lessons from the Okavango Delta, Botswana

Author

Marc S. Humphries, Timothy J. Ralph, Zacchary T. Larkin, Kirstie Fryirs, Edwin Mosimanyana, Terence S. McCarthy, Stephen Tooth, and Paul Hesse

Subjects
010504 meteorology & atmospheric sciences, business.industry, 05 social sciences, Geography, Planning and Development, Environmental resource management, Perspective (graphical), 0507 social and economic geography, Fluvial, 01 natural sciences, Okavango delta, Water resources, Geography, business, 050703 geography, 0105 earth and related environmental sciences, Earth-Surface Processes
Published
2018
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20. Timescales, mechanisms, and controls of incisional avulsions in floodplain wetlands: Insights from the Tshwane River, semiarid South Africa

Author

Stephen Tooth, Amanda Keen-Zebert, Terence S. McCarthy, Timothy J. Ralph, Marc S. Humphries, Geoff A. T. Duller, and Zacchary T. Larkin

Subjects
Hydrology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Floodplain, Knickpoint, Fluvial, 15. Life on land, 010502 geochemistry & geophysics, 01 natural sciences, Avulsion, Aggradation, Overbank, Stream power, Bank erosion, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Avulsion (relocation of a river course to a new position) typically is assumed to occur more frequently in rivers with faster sedimentation rates, yet supporting field data are limited and the influence of sedimentation rate on avulsion style remains unclear. Using analysis of historical aerial photographs, optically stimulated luminescence dating of fluvial sediments, and field observations, we document three avulsions that have occurred in the last 650 years along the lower reaches of the semiarid Tshwane River in northern South Africa. Study of the modern river and abandoned reaches reveals that a downstream decrease in discharge and stream power leads to reduced channel size and declining sediment transport capacity. Bank erosion drives an increase in channel sinuosity, leading to a decline in local channel slope, and to a further decrease in discharge and sediment transport. Local sedimentation rates > 10 mm a − 1 occur within and adjacent to the channel, so over time levees and an alluvial ridge develop. The resulting increase in cross-floodplain gradient primes a reach for avulsion by promoting erosion of a new channel on the floodplain, which enlarges and extends by knickpoint retreat during periods of overbank flow. Ultimately, the new channel diverts the discharge and bedload sediment from the older, topographically higher channel, which is then abandoned. Our findings support the assumption that avulsion frequency and sedimentation rate are positively correlated, and we demonstrate that incisional avulsions can occur in settings with relatively rapid net vertical aggradation. The late Holocene avulsions on the semiarid Tshwane River have been driven by intrinsic (autogenic) processes during meander belt development, but comparison with the avulsion chronology along a river in subhumid South Africa highlights the need for additional investigations into the influence of hydroclimatic setting on the propensity for avulsion.

Published
2017
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21. Influence of historical inundation frequency on soil microbes (Cyanobacteria, Proteobacteria, Actinobacteria) in semi-arid floodplain wetlands

Author

Tsuyoshi Kobayashi, P. Sharma, Timothy J. Ralph, and Simon M. Mitrovic

Subjects
0106 biological sciences, Cyanobacteria, geography, Biogeochemical cycle, geography.geographical_feature_category, Marsh, 010504 meteorology & atmospheric sciences, Ecology, biology, Floodplain, 010604 marine biology & hydrobiology, Wetland, Aquatic Science, Oceanography, biology.organism_classification, 01 natural sciences, Actinobacteria, Marine Biology & Hydrobiology, Abundance (ecology), Environmental science, bacteria, Proteobacteria, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences
Abstract

Cyanobacteria and other microbes are important moderators of biogeochemical processes in semi-arid floodplain wetlands with varying inundation regimes. Inundation is a key environmental driver for floodplain biological communities. Little is known about the effect of historical inundation frequency on the spatial abundance of floodplain–wetland Cyanobacteria and other microbes. In this study, soil samples were collected at two locations with a gradient of low-to-high inundation frequency in the Macquarie Marshes, south-east Australia. We used high-throughput sequencing to estimate the proportional abundance of the soil Cyanobacteria and other dominant microbes, targeting the bacterial 16S rRNA gene. Of the microbes recovered, Cyanobacteria constituted proportionally a minor component, relative to other dominant phyla like Proteobacteria and Actinobacteria. Linear regression (generalised least-squares) models accounting for spatial autocorrelation showed that historical inundation frequency had no significant effect on the proportional abundance of Cyanobacteria at both wetlands studied. However, inundation frequency had a significant positive effect on the proportional abundance of Proteobacteria and a significant negative effect on the proportional abundance of Actinobacteria. Cyanobacteria seem to occupy a different hydrological niche from Proteobacteria and Actinobacteria in semi-arid floodplain wetlands, suggesting taxon-dependent response of floodplain microbial communities to varying inundation regimes and associated soil conditions in those environments.

Published
2020

22. Geomorphic controls on the diversity and patterns of fluvial forms along longitudinal profiles

Author

Kirstie Fryirs, Timothy J. Ralph, and Sana Khan

Subjects
Hydrology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Flow (psychology), Drainage basin, Fluvial, Sediment, Flux, 04 agricultural and veterinary sciences, 01 natural sciences, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Scale (map), River catchment, Stream power, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

A mix of catchment-scale controls operate to determine geomorphic river diversity in a catchment. These are contextualised here as imposed and flux controls. Imposed controls do not adjust over geomorphic timeframes and produce the environmental setting in which a river functions. Flux controls are dynamic interactions between flow and sediment that heavily influence geomorphic river diversity. We measure and statistically analyse the network scale mix of imposed and flux controls occurring along longitudinal profiles of various shape. We use this to explain the diversity, pattern and sequence of river types at different positions in a catchment. Using the Richmond River catchment, New South Wales, Australia, as our case study we analyse the imposed controls of slope and valley bottom width and the flux controls of bed material size and gross stream power for five river types, ranging from confined continuous rivers in headwaters to laterally unconfined discontinuous rivers in lowland plains. We find that slope and gross stream power are strong, positively correlated controls on all river types, but act most strongly on rivers with continuous channels. In contrast, bed material size is a dominant control on rivers with discontinuous channels. Slope and gross stream power are also critical for determining the downstream pattern of river types along longitudinal profiles. However, the relationship between these controls is complex as not all rivers are influenced by these controls in the same way. Understanding the mix and patterns of controls operating along longitudinal profiles can be used to explain the variability and pattern of river types we see in the landscape.

Published
2021
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23. The interplay between extrinsic and intrinsic controls in determining floodplain wetland characteristics in the South African drylands

Author

Terence S. McCarthy, Timothy J. Ralph, Zacchary T. Larkin, and Stephen Tooth

Subjects
Hydrology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Floodplain, 05 social sciences, Geography, Planning and Development, 0507 social and economic geography, Drainage basin, Context (language use), Wetland, Alluvial river, 01 natural sciences, Arid, Aggradation, Earth and Planetary Sciences (miscellaneous), Environmental science, Physical geography, 050703 geography, Stream power, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Controls on the characteristics of floodplain wetlands in drylands are diverse and may include extrinsic factors such as tectonic activity, lithology and climate, and intrinsic thresholds of channel change. Correct analysis of the interplay between these controls is important for assessing possible channel-floodplain responses to changing environmental conditions. Using analysis of aerial imagery, geological maps and field data, this paper investigates floodplain wetland characteristics in the Tshwane and Pienaars catchments, northern South Africa, and combines the findings with previous research to develop a new conceptual model highlighting the influence of variations in aridity on flow, sediment transport, and channel-floodplain morphology. The Tshwane-Pienaars floodplain wetlands have formed in response to a complex interplay between climatic, lithological, and intrinsic controls. In this semiarid setting, net aggradation (alluvium >5 m thick) in the wetlands is promoted by marked downstream declines in discharge and stream power that are related to transmission losses and declining downstream gradients. Consideration of the Tshwane-Pienaars wetlands in their broader catchment and regional context highlights the key influence of climate, and demonstrates how floodplain wetland characteristics vary along a subhumid to semiarid climatic gradient. Increasing aridity tends to be associated with a reduction in the ability of rivers to maintain through-going channels and an increase in the propensity for channel breakdown and floodout formation. Understanding the interplay between climate, hydrology and geomorphology may help to anticipate and manage pathways of floodplain wetland development under future drier, more variable climates, both in South African and other drylands. This article is protected by copyright. All rights reserved.

Published
2016
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24. COMPARISON OF VERY NEAR INFRARED (VNIR) WAVELENGTH FROM EO-1 HYPERION AND WORLDVIEW 2 IMAGES FOR SALTMARSH CLASSIFICATION

Author

Timothy J. Ralph, Hsing-Chung Chang, Sikdar M. M. Rasel, Neil Saintilan, Israt Jahan Diti, Halounova, L, Safar, V, Raju, PLN, Planka, L, Zdimal, V, Kumar, TS, Faruque, FS, Kerr, Y, Ramasamy, SM, Comiso, J, Hussin, YA, Thenkabail, PS, Lavender, S, Skidmore, A, Yue, P, Patias, P, Altan, O, and Weng, Q

Subjects
lcsh:Applied optics. Photonics, 010504 meteorology & atmospheric sciences, lcsh:T, Multispectral image, 0211 other engineering and technologies, Atmospheric correction, lcsh:TA1501-1820, Hyperspectral imaging, 02 engineering and technology, Land cover, lcsh:Technology, 01 natural sciences, Multispectral pattern recognition, VNIR, lcsh:TA1-2040, Principal component analysis, Radiance, Environmental science, lcsh:Engineering (General). Civil engineering (General), Cartography, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Remote sensing
Abstract

Saltmarsh is one of the important communities of wetlands. Due to a range of pressures, it has been declared as an EEC (Ecological Endangered Community) in Australia. In order to correctly identify different saltmarsh species, development of distinct spectral characteristics is essential to monitor this EEC. This research was conducted to classify saltmarsh species based on spectral characteristics in the VNIR wavelength of Hyperion Hyperspectral and Worldview 2 multispectral remote sensing data. Signal Noise Ratio (SNR) and Principal Component Analysis (PCA) were applied in Hyperion data to test data quality and to reduce data dimensionality respectively. FLAASH atmospheric correction was done to get surface reflectance data. Based on spectral and spatial information a supervised classification followed by Mapping Accuracy (%) was used to assess the classification result. SNR of Hyperion data was varied according to season and wavelength and it was higher for all land cover in VNIR wavelength. There was a significant difference between radiance and reflectance spectra. It was found that atmospheric correction improves the spectral information. Based on the PCA of 56 VNIR band of Hyperion, it was possible to segregate 16 bands that contain 99.83 % variability. Based on reference 16 bands were compared with 8 bands of Worldview 2 for classification accuracy. Overall Accuracy (OA) % for Worldview 2 was increased from 72 to 79 while for Hyperion, it was increased from 70.47 to 71.66 when bands were added orderly. Considering the significance test with z values and kappa statistics at 95% confidence level, Worldview 2 classification accuracy was higher than Hyperion data.

Published
2016
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25. Extent and effect of the 2019-20 Australian bushfires on upland peat swamps in the Blue Mountains, NSW

Author

Anthony A. Chariton, Kirsten L. Cowley, Timothy J. Ralph, Natalie Hejl, Kirstie Fryirs, Lorraine Hardwick, Will Farebrother, Rachael Y. Dudaniec, Adam J. Stow, Nicole A. Christiansen, and Grant C. Hose

Subjects
geography, geography.geographical_feature_category, Peat, 010504 meteorology & atmospheric sciences, Ecology, Fire regime, National park, 0208 environmental biotechnology, Climate change, Forestry, Wetland, 02 engineering and technology, 01 natural sciences, Swamp, 020801 environmental engineering, Temperate climate, Natural disaster, 0105 earth and related environmental sciences
Abstract

The devastating bushfires of the 2019–20 summer are arguably the most costly natural disaster in Australian recorded history. What is little known is that these fires severely affected the temperate highland peat swamps on sandstone (THPSS), a form of upland wetland that occurs in the water supply catchments of Sydney in the Greater Blue Mountains World Heritage Area and National Park. During the fires, 59% of THPSS was burnt and 72% of those by a high severity burn. Upland swamps at Newnes were the most affected, with 96% of swamps burnt and 84% of these experiencing a very high burn severity. We present an analysis of the spatial extent and severity of the bushfire on the THPSS and discuss some of the likely consequences on their geomorphological, hydrological and ecological structure, function and recovery potential.

Published
2021
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26. A shifting ‘river of sand’: The profound response of Australia's Warrego River to Holocene hydroclimatic change

Author

Timothy J. Ralph, Stephen Tooth, Zacchary T. Larkin, and Geoff A. T. Duller

Subjects
010504 meteorology & atmospheric sciences, Ephemeral key, Sinuosity, 010502 geochemistry & geophysics, 01 natural sciences, Low energy, Palaeochannel, Satellite imagery, Physical geography, Stream power, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

In dryland river catchments, palaeochannels provide some of the key records for understanding the changes in river character and behaviour that can occur in response to different extrinsic and intrinsic controls. Here, we combine modern hydroclimatic datasets, satellite imagery, field surveys, and optically stimulated luminescence (OSL) dating of palaeochannels to investigate the response of the ~850 km long Warrego River, located in central eastern Australia, to Holocene hydroclimatic change. The modern Warrego is an intermittent to ephemeral, low energy river (unit stream power, ω, ≤4 W m−2), and is characterised by low sinuosity (‘straight’), narrow (

Published
2020
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27. Product vs. process? The role of geomorphology in wetland characterization

Author

Timothy J. Ralph, Stephen Tooth, and Peyton E. Lisenby

Subjects
geography, Environmental Engineering, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Community, Floodplain, Landform, Wetland, 010501 environmental sciences, 01 natural sciences, Pollution, Wetland classification, Unit (housing), Ecosystem services, Environmental Chemistry, Ecosystem, Waste Management and Disposal, Geomorphology, 0105 earth and related environmental sciences
Abstract

Wetland classification has become a primary tool to characterize and inventory wetland landscapes, but wetlands are difficult to classify because they straddle the terrestrial and aquatic boundary and occur in a variety of hydroclimatic and topographic settings. Presently, many ecological wetland classification schemes are focused on the 'hydrogeomorphic' unit, which attempts to account for the physical setting of a wetland. In many cases topographic terms (e.g. flats, slopes) rather than geomorphological terms (e.g. oxbow, floodplain) are used to characterize landforms, and little attempt is made to characterize the process-landform relationships within wetland landscapes. The current misrepresentation of product geomorphology (i.e. topographic rather than landform description) and underrepresentation of process geomorphology (i.e. lacking process-landform relationships) means that many current wetland classification schemes represent an incomplete and static attempt to characterize geomorphologically dynamic wetland landscapes. Here, we use examples from wetlands in the drylands of Africa, Australia, and North America to identify the capacity for adjustment (i.e. form and timescale of adjustment) of wetland landforms and we relate this capacity to the geomorphological concepts of sediment connectivity and landform sensitivity. We highlight how geomorphological insights into process-landform relationships and timescales of landform adjustment can add value to wetland classification efforts, with important implications for wetland management and ecosystem service delivery. We submit that geomorphology has a much larger role to play in wetland characterization and can enhance existing wetland classification schemes. More participation by the geomorphology community in wetland science and more awareness by the ecology community in recognizing and characterizing wetlands as dynamic landscapes will facilitate more effective wetland research and management.

Published
2018

28. How seed traits predict floating times: a biophysical process model for hydrochorous seed transport behaviour in fluvial systems

Author

Kirstie Fryirs, Haiyan Bu, Michelle R. Leishman, Timothy J. Ralph, and Alexandra J. R. Carthey

Subjects
0106 biological sciences, Hydrology, geography, River ecosystem, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, Seed dispersal, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Sphericity, Biological dispersal, Environmental science, Subsurface flow, Sediment transport, Bed load, Riparian zone
Abstract

Summary Many plants disperse their seeds in waterbodies via hydrochoric transport. Despite a growing body of research into hydrochory, little is known about the fundamental seed traits that determine floatation ability or hydrochoric transport behaviour more generally. Seeds are transported in fluvial systems in one of three phases: surface transport, within the flow or incorporated in bedload. Seeds are often categorised as buoyant or non-buoyant based on density, with little consideration of the morphological traits that determine how long seeds spend in each transport phase. We investigated the seed traits that best predict time spent floating under laboratory conditions, using sixty species of riparian plants from south-eastern Australia. We measured and calculated key physical attributes (length, width, volume, surface area, mass, density, sphericity, roundness and shape category) and categorised seeds according to their primary dispersal modes (water/wind, vertebrate, adhesion, ants and unassisted). We used Cox's proportional hazards modelling to reveal that seed density and volume : surface area ratio were the physical traits that best predicted time spent floating. Volume : surface area ratio represents both seed size and shape, as it increases with size and sphericity. Our results showed that denser, larger and/or more spherical seeds (i.e. higher volume : surface area ratio) were poor floaters. They are therefore more likely to be transported in subsurface flow or as bedload. We combined our data with geomorphic models of sediment transport in flow to develop a biophysical process model of how hydrological forces and seed physical traits determine hydrochorous seed transport behaviour in rivers. The model describes how surface tension, buoyancy and flow velocity act on seed density and volume : surface area ratio to characterise time spent floating. We extrapolate from our data to conceptualise how these traits predict transitions between surface, subsurface and bedload transport. Hydrochoric seed transport behaviour and deposition are both threshold-driven and multidirectional. Our process model is likely to be applicable across a range of different seed types in a range of rivers. It substantially increases our understanding of hydrochoric processes in rivers, lakes and lotic wetlands and will help illuminate the links between seed traits, hydrochoric transport and patterns of riparian vegetation and species composition.

Published
2015
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29. Quantifying fluvial (dis)connectivity in an agricultural catchment using a geomorphic approach and sediment source tracing

Author

Henk Heijnis, Kirstie Fryirs, Timothy J. Ralph, Hugh Smith, and Adam Wethered

Subjects
Hydrology, Topsoil, geography, geography.geographical_feature_category, Stratigraphy, Drainage basin, Fluvial, Sediment, Erosion, Sedimentary budget, Sediment transport, Geology, Stream power, Earth-Surface Processes
Abstract

Catchments subject to land clearance, soil tillage and grazing suffer legacy effects from altered sediment and hydrological regimes and from changes in sediment connectivity between hillslopes and channels. Sediment dynamics are routinely investigated using the fallout radionuclides (FRNs) caesium-137 (137Cs) and excess lead-210 (210Pbex), which provide information regarding sediment sources and fluvial processes if source types are differentiated with confidence. Downstream transport, mixing and dilution of FRN-labelled fine sediment can obliterate the tracer signal from sources with low initial concentrations, so geomorphic evidence for downstream changes in sediment source types, mixing and fluvial (dis)connectivity should be used with tracers to ascertain the degree of sediment source variation and dominant fluvial processes. We coupled sediment source tracing with a geomorphic assessment of downstream hydrological, morphological and sedimentological change to quantify key components of fluvial (dis)connectivity in Coolbaggie Creek, a major source of sediment to the Macquarie River, southeastern Australia. Cs and 210Pbex discriminated between the 200 m2) and unit stream power (5.4 to 1,382 W m−2), and evidence of greater subsoil and reworked sediment contributions from bank and gully erosion. Limited topsoil supply to the trunk stream suggests low catchment erosion rates and reduced connectivity between the catchment and the river. Enlargement and entrenchment of the trunk stream in the lower reaches have resulted in lateral channel–floodplain disconnection, while a sediment slug impedes longitudinal coarse sediment transfer. Hydrogeomorphic change and sediment source variations downstream explain the short-term sediment dynamics in this agricultural catchment, which has broader implications for understanding sediment transport processes and fluvial (dis)connectivity when interpreting sediment source and tracer data.

Published
2015
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30. Spatial dissimilarities in plankton structure and function during flood pulses in a semi-arid floodplain wetland system

Author

Russell J. Shiel, Timothy J. Ralph, Tsuyoshi Kobayashi, Simon J. Hunter, Hendrik Segers, and Darren Ryder

Subjects
geography, Marsh, geography.geographical_feature_category, Floodplain, Ecology, fungi, Wetland, Bacterioplankton, Aquatic Science, Plankton, Zooplankton, Habitat, Phytoplankton, Environmental science
Abstract

Floodplain wetlands in semi-arid regions have intricate channel-floodplain networks with highly variable and unpredictable wet and dry phases related to changes in hydrology and geomorphology. We tested the hypothesis that the presence of different hydro-geomorphic habitats in those systems drives structural and functional differences in aquatic communities. To test this hypothesis, we examined the densities and species composition (structural variables), and primary productivity and respiration (functional variables) of plankton communities, and water chemistry in three spatially explicit channel, floodout and lagoon habitat types inundated by environmental water releases in the Macquarie Marshes, semi-arid Australia. Significant differences were recorded among the community-level structural and functional variables among the three habitats. Greater densities of phytoplankton, zooplankton and planktonic bacteria were observed in a hydrologically isolated floodplain lagoon. The lagoon habitat also had greater primary productivity of phytoplankton and planktonic respiration compared with the channel and floodout. Our results suggest that water release to meet environmental flow requirements can be an important driver of planktonic diversity and functional responses in semi-arid wetland systems by inundating diverse, hydro-geomorphically distinct habitats.

Published
2014
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31. A reassessment of the Lower Namoi Catchment aquifer architecture and hydraulic connectivity with reference to climate drivers

Author

Bryce F. J. Kelly, Wendy Timms, Andrew M. McCallum, Alessandro Comunian, Timothy J. Ralph, Martin S. Andersen, Rachel Blakers, Andy Baker, Beatrice Maria Sole Giambastiani, R. I. Acworth, B. Kelly, W. Timm, T. Ralph, B. Giambastiani, A. Comunian, A. McCallum, M. Andersen, R. Blaker, R. Acworth, and A. Baker

Subjects
Hydrology, geography, geography.geographical_feature_category, global climate change, Drainage basin, Borehole, Hydrograph, Aquifer, Namoi Catchment, distributive fluvial system, Stratigraphy, Aggradation, groundwater, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Alluvium, Neogene, hydrostratigraphy, Geomorphology, Geology, Groundwater
Abstract

We demonstrate the need for better representations of aquifer architecture to understand hydraulic connectivity and manage groundwater allocations for the ~140 m-thick alluvial sequences in the Lower Namoi Catchment, Australia. In the 1980s, an analysis of palynological and groundwater hydrograph data resulted in a simple three-layer stratigraphic/hydrostratigraphic representation for the aquifer system, consisting of an unconfined aquifer overlying two semi-confined aquifers. We present an analysis of 278 borehole lithological logs within the catchment and show that the stratigraphy is far more complex. The architectural features and the net-to-gross line-plot of the valley-filling sequence are best represented by a distributive fluvial system, where the avulsion frequency increases at a slower rate than the aggradation rate.We also show that an improved understanding of past climates contextualises the architectural features observable in the valley-filling sequence, and that the lithofacies distribution captures information about the impact of climate change during the Neogene and Quaternary. We demonstrate the correlation between climate and the vertical lithological succession by correlating the sediment net-to-gross ratio line-plot with the marine benthic oxygen isotope line-plot - a climate change proxy. Pollens indicate that there was a transition from a relatively wet climate in the mid-late Miocene to a drier climate in the Pleistocene, with a continuing drying trend until present. Groundwater is currently extracted from the sand and gravel belts associated with the high-energy wetter climate. However, some of these channel belts are disconnected from the modern river and flood zone. We show that the cutoff between the hydraulically well- and poorly connected portions of the valley-filling sequence matches the connectivity threshold expected from a fluvial system. © 2014 © 2014 Geological Society of Australia.

Published
2014
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32. Gross primary productivity of phytoplankton and planktonic respiration in inland floodplain wetlands of southeast Australia: habitat-dependent patterns and regulating processes

Author

Darren Ryder, Timothy J. Ralph, Simon J. Hunter, and Tsuyoshi Kobayashi

Subjects
Biochemical oxygen demand, geography, geography.geographical_feature_category, Floodplain, Ecology, Aquatic ecosystem, Dissolved organic carbon, Phytoplankton, Environmental science, Wetland, Autotroph, Plankton, Ecology, Evolution, Behavior and Systematics
Abstract

Gross primary productivity (GPP) of phytoplankton and planktonic respiration (PR) (i.e., planktonic metabolism) are critical pathways for carbon transformation in many aquatic ecosystems. In inland floodplain wetlands with variable inundation regimes, quantitative measurements of GPP and PR are rare and their relationships with wetland environmental conditions are largely unknown. We measured PR and the GPP of phytoplankton using light and dark biological oxygen demand bottles in open waters of channel and non-channel floodplain habitats of inland floodplain wetlands of southeast Australia that had been inundated by environmental water. Overall, GPP varied from 3.7 to 405.5 mg C m−3 h−1 (mean ± standard error: 89.4 ± 9.2 mg C m−3 h−1, n = 81), PR from 1.5 to 251.6 mg C m−3 h−1 (43.2 ± 5.6 mg C m−3 h−1, n = 81), and GPP/PR from 0.2 to 15.6 (3.0 ± 0.3, n = 81). In terms of wetland environmental conditions, total nitrogen (TN) ranged from 682.0 to 14,700.0 mg m−3 (mean ± standard error: 2,643.0 ± 241.6 mg m−3, n = 81), total phosphorus (TP) from 48.0 to 1,405.0 mg m−3 (316.8 ± 31.4 mg m−3, n = 81), and dissolved organic carbon (DOC) from 1.9 to 46.3 g m−3 (22.0 ± 1.6 g m−3, n = 81). Using ordinary least-squares multiple regression analyses, the rates of GPP and PR, and their ratio (GPP/PR) were modeled as a function of TN, TP, and DOC that had been measured concomitantly. The “best” models predicted GPP and GPP/PR ratio in channel habitats as a function of DOC; and GPP, PR, and GPP/PR in non-channel floodplain habitats as a function of TN and/or TP. The models explained between 46 and 74 % of the variance in channel habitats and between 17 and 87 % of the variance in non-channel floodplain habitats. Net autotrophy (mean GPP/PR 3.0) of planktonic metabolism in our work supports the prevailing view that wetlands are a net sink for carbon dioxide. We propose a nutrient-DOC framework, combined with hydrological and geomorphological delineations, to better predict and understand the planktonic metabolism in inland floodplain wetlands.

Published
2013
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33. Comparative analysis of Worldview-2 and Landsat 8 for coastal saltmarsh mapping accuracy assessment

Author

Neil Saintilan, Hsing-Chung Chang, Sikdar M. M. Rasel, Israt Jahan Diti, and Timothy J. Ralph

Subjects
geography, geography.geographical_feature_category, biology, Artificial neural network, Maximum likelihood classifier, biology.organism_classification, Support vector machine, Salt marsh, Satellite imagery, Image resolution, Cartography, Sporobolus virginicus, Kappa, Remote sensing
Abstract

Coastal saltmarsh and their constituent components and processes are of an interest scientifically due to their ecological function and services. However, heterogeneity and seasonal dynamic of the coastal wetland system makes it challenging to map saltmarshes with remotely sensed data. This study selected four important saltmarsh species Pragmitis australis, Sporobolus virginicus, Ficiona nodosa and Schoeloplectus sp. as well as a Mangrove and Pine tree species, Avecinia and Casuarina sp respectively. High Spatial Resolution Worldview-2 data and Coarse Spatial resolution Landsat 8 imagery were selected in this study. Among the selected vegetation types some patches ware fragmented and close to the spatial resolution of Worldview-2 data while and some patch were larger than the 30 meter resolution of Landsat 8 data. This study aims to test the effectiveness of different classifier for the imagery with various spatial and spectral resolutions. Three different classification algorithm, Maximum Likelihood Classifier (MLC), Support Vector Machine (SVM) and Artificial Neural Network (ANN) were tested and compared with their mapping accuracy of the results derived from both satellite imagery. For Worldview-2 data SVM was giving the higher overall accuracy (92.12%, kappa =0.90) followed by ANN (90.82%, Kappa 0.89) and MLC (90.55%, kappa = 0.88). For Landsat 8 data, MLC (82.04%) showed the highest classification accuracy comparing to SVM (77.31%) and ANN (75.23%). The producer accuracy of the classification results were also presented in the paper.

Published
2016
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34. The Use of Representative Species as Surrogates for Wetland Inundation

Author

Neil Saintilan, Timothy J. Ralph, and Kerrylee Rogers

Subjects
Hydrology, geography, geography.geographical_feature_category, Marsh, Ecology, Range (biology), Wetland, Habitat, Indicator species, Environmental Chemistry, Environmental science, Flagship species, Ecosystem, Landscape ecology, General Environmental Science
Abstract

The complex task of determining the inundation requirements of large floodplain wetlands is often simplified through the use of representative, umbrella or flagship species. This subset of species is targeted based on the assumption that their collective inundation requirements serve as a surrogate for the broader suite of species found within the wetland. We tested the application of representative species commonly used in wetland and water management planning in the Murray-Darling Basin. In a review of the water requirements of 155 plants and animals, we collated information on preferred inundation timing, duration, depth, rate of rise and fall, and inter-flood period for 115 species. We then used cluster analysis to determine the extent to which ten commonly used representative species corresponded in inundation requirements to the broader suite of species. We found that the habitat surrogates of river red gum, black box, spike rush, coolibah, water couch, lignum and marsh club-rush represented only one third of species at a 60% level of similarity in inundation requirements, due mainly to the lower inundation return period and duration required by the habitat surrogates. The addition of faunal representative species facilitated the inclusion of a broader range of requirements, though primarily amongst related taxa. We recommend the inclusion of several additional indicator species to more adequately cover the inundation requirements of large wetland ecosystems.

Published
2012
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35. Matching research and policy tools to scales of climate-change adaptation in the Murray-Darling, a large Australian river basin: a review

Author

Neil Saintilan, Timothy J. Ralph, and Kerrylee Rogers

Subjects
geography, Government, geography.geographical_feature_category, business.industry, Hydrological modelling, Site manager, Environmental resource management, Drainage basin, Climate change, Wetland, Aquatic Science, Structural basin, Environmental science, Asset (economics), business
Abstract

Climate change is likely to cause deleterious hydrological and ecological impacts in many of the world’s major river basins. Using the Murray-Darling Basin, Australia, as a case study, we present an adaptation framework which addresses the hydrological impacts of climate change at three spatial scales: the high-conservation value asset, the water management unit and the entire basin. At each scale, the appropriate scientific, policy and operational tools differ, though should be applied in concert. At the scale of the asset, hydrodynamic modelling has improved the capacity of site managers to anticipate the effects of management interventions. These models have also contributed to improve hydrological modelling of the water management unit. When combined with ecosystem response models, hydrological models can compare ecological outcomes over a range of timescales, leading to improvements in the representation of environmental requirements in water sharing plans. At the scale of the basin, the Australian government has used a legislative mechanism to set overarching ecological and diversion objectives. In addition, the purchase of water-use entitlements has created a flexible mechanism to use the water market as a climate-change adaptation mechanism, responding to the changing water availability and conservation priorities that emerge over the coming decades.

Published
2011
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36. Paleoecological responses to avulsion and floodplain evolution in a semiarid Australian freshwater wetland

Author

Tim Ingleton, David Yonge, Tsuyoshi Kobayashi, N. Bleakley, Paul Hesse, Timothy J. Ralph, and Adriana García

Subjects
geography, geography.geographical_feature_category, Marsh, Floodplain, Ecology, Wetland, Structural basin, Macrophyte, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Sedimentology, Geology, Channel (geography), Invertebrate
Abstract

Paleoecological responses to coupled geomorphic and hydrological changes have rarely been studied using a multiproxy approach in freshwater floodplain wetlands of semiarid Australia. The Macquarie Marshes are a large, multi-channelled and morphodynamic floodplain wetland system in the lowland interior of the Murray-Darling Basin, southeastern Australia. Evidence from historical maps, aerial photographs, geomorphology and sedimentology indicate that avulsion in the southern Macquarie Marshes caused the formation of a major new channel (Monkeygar Creek) and the abandonment of a reach of the Macquarie River in the last 200 years. Paleobiological samples from near-uniform sediment cores were studied to determine the environmental changes related to this avulsion, as well as associated floodplain evolution and hydrological changes in the adjoining flood-reliant wetlands. Fifteen macrophyte taxa, seven charophyte taxa, 28 diatom taxa and 18 aquatic invertebrate taxa were identified in sediments from the termina...

Published
2011
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37. Downstream hydrogeomorphic changes along the Macquarie River, southeastern Australia, leading to channel breakdown and floodplain wetlands

Author

Paul Hesse and Timothy J. Ralph

Subjects
Hydrology, geography, geography.geographical_feature_category, Marsh, Floodplain, Tributary, Alluvium, Wetland, Sinuosity, Geology, Stream power, Earth-Surface Processes, Alluvial plain
Abstract

Floodplain wetlands and floodouts in the Macquarie Marshes are fed by numerous anastomosing and distributary channels on the lower reaches of the Macquarie River, southeastern Australia. River discharge is seasonally and annually variable and is affected by both interannual and interdecadal climatic trends, related to ENSO and IPO. A downstream comparison of hydrologic data shows that flows decrease significantly in magnitude and stream power along the allogenic lower Macquarie River as distributary outflows are not matched by tributary inputs. Intrinsic hydrologic and geomorphic thresholds along the lower Macquarie River lead to the breakdown of the trunk stream into smaller distributaries, with disintegration of channelised flows and development of extensive wetlands on the low-gradient, dryland alluvial floodplain-fan. Cross-sectional analysis shows that the morphology and morphometry of the trunk stream change accordingly, with adjustments in planform and cross-sectional shape and marked downstream reductions in channel capacity and bed width. Despite monotonic declines in river discharge, gross stream power and channel cross-sectional area, there is a threshold change in the geomorphic response. Channel width-to-depth ratio decreases in the middle reaches and then increases, while channel sinuosity increases until immediately upstream of the core wetlands and then rapidly declines as straight channels enter areas of extensive channel breakdown. Floodplain width is greatest on the alluvial plain, allowing a broader area of floodplain wetlands to develop, that are characterised by fine cohesive sediments. Floodplain connection is greatest where floodouts and wetlands form in the Marshes. Channel breakdown and floodplain wetland formation along the lower Macquarie River and in the Macquarie Marshes are distinct examples of a nonequilibrium response to downstream declining discharge and stream power, which is an inherent condition in many dryland Australian rivers during the Holocene.

Published
2010
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38. Endmember identification from EO-1 Hyperion L1_R hyperspectral data to build saltmarsh spectral library in Hunter Wetland, NSW, Australia

Author

Hsing-Chung Chang, Sikdar M. M. Rasel, Timothy J. Ralph, and Neil Saintilan

Subjects
Hydrology, Endmember, geography, geography.geographical_feature_category, biology, Sarcocornia, Atmospheric correction, Hyperspectral imaging, Wetland, Vegetation, Land cover, biology.organism_classification, Sporobolus, Remote sensing
Abstract

Saltmarsh is one of the important communities of wetlands, however, due to a range of pressures, it has been declared as an EEC (Ecological Endangered Community) in Australia. In order to correctly identify different saltmarsh species, development of spectral libraries of saltmarsh species is essential to monitor this EEC. Hyperspectral remote sensing, can explore the area of wetland monitoring and mapping. The benefits of Hyperion data to wetland monitoring have been studied at Hunter Wetland Park, NSW, Australia. After exclusion of bad bands from the original data, an atmospheric correction model was applied to minimize atmospheric effect and to retrieve apparent surface reflectance for different land cover. Large data dimensionality was reduced by Forward Minimum Noise Fraction (MNF) algorithm. It was found that first 32 MNF band contains more than 80% information of the image. Pixel Purity Index (PPI) algorithm worked properly to extract pure pixel for water, builtup area and three vegetation Casuarina sp., Phragmitis sp. and green grass. The result showed it was challenging to extract extreme pure pixel for Sporobolus and Sarcocornia from the data due to coarse resolution (30 m) and small patch size (

Published
2015
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39. Floodplain Wetland Biota in the Murray-Darling Basin : Water and Habitat Requirements

Author

Kerrylee Rogers, Timothy J Ralph, Kerrylee Rogers, and Timothy J Ralph

Subjects
Wetland management--Australia--Murray River Watershed (N.S.W.-S. Aust.), Floodplain management--Australia--Darling River (Qld. and N.S.W.), Floodplain management--Australia--Murray River (N.S.W.-S. Aust.), Wetland management--Australia--Darling River Watershed (Qld. and N.S.W.)
Abstract

Floodplain wetlands of the Murray-Darling Basin provide critical habitat for numerous species of flora and fauna, yet the ecology of these wetlands is threatened by a range of environmental issues. This book addresses the urgent need for an improved ecohydrological understanding of the biota of Australian freshwater wetlands. It synthesises key water and habitat requirements for 35 species of plants, 48 species of waterbirds, 17 native and four introduced species of fish, 15 species of frogs, and 16 species of crustaceans and molluscs found in floodplain wetlands of the Murray-Darling Basin. Each species profile includes: the influence of water regimes on the survival, health and condition of the species; key stimuli for reproduction and germination; habitat and dietary preferences; as well as major knowledge gaps for the species. Floodplain Wetland Biota in the Murray-Darling Basin also provides an overview of the likely impacts of hydrological change on wetland ecosystems and biota, in the context of climate change and variability, with implications for environmental management. This important book provides an essential baseline for further education, scientific research and management of floodplain wetland biota in the Murray-Darling Basin.

Published
2011

40. Floodplain Wetland Biota in the Murray-Darling Basin

Author

Timothy J. Ralph and Kerrylee Rogers

Subjects
geography, geography.geographical_feature_category, Floodplain, Critical habitat, Habitat, Ecology, Threatened species, Environmental science, Ecosystem, Wetland, Introduced species, Biota
Abstract

Floodplain wetlands of the Murray-Darling Basin provide critical habitat for numerous species of flora and fauna, yet the ecology of these wetlands is threatened by a range of environmental issues. This book addresses the urgent need for an improved ecohydrological understanding of the biota of Australian freshwater wetlands. It synthesises key water and habitat requirements for 35 species of plants, 48 species of waterbirds, 17 native and four introduced species of fish, 15 species of frogs, and 16 species of crustaceans and molluscs found in floodplain wetlands of the Murray-Darling Basin. Each species profile includes: the influence of water regimes on the survival, health and condition of the species; key stimuli for reproduction and germination; habitat and dietary preferences; as well as major knowledge gaps for the species. Floodplain Wetland Biota in the Murray-Darling Basin also provides an overview of the likely impacts of hydrological change on wetland ecosystems and biota, in the context of climate change and variability, with implications for environmental management. This important book provides an essential baseline for further education, scientific research and management of floodplain wetland biota in the Murray-Darling Basin.

Published
2010
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41. Wandering wetlands: spatial patterns of historical channel and floodplain change in the Ramsar-listed Macquarie Marshes, Australia

Author

Tsuyoshi Kobayashi, Paul Hesse, and Timothy J. Ralph

Subjects
Nature reserve, geography, geography.geographical_feature_category, Marsh, 010504 meteorology & atmospheric sciences, Ecology, Floodplain, business.industry, Environmental resource management, Wetland, Context (language use), 15. Life on land, Aquatic Science, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Adaptive management, Habitat, 13. Climate action, business, Ecology, Evolution, Behavior and Systematics, Channel (geography), 0105 earth and related environmental sciences
Abstract

In the context of static conservation reserves, dynamic fluvial processes and patterns of river channel and floodplain change are problematic for environmental management. Floodplain wetlands that evolve by erosion and sedimentation experience changes in the location and extent of channels and wetlands regardless of conservation reserve boundaries. We describe historical channel and floodplain change in an Australian wetland of international ecological significance, the southern Macquarie Marshes, and synthesise the role of avulsion in wetlands that move laterally on the broader floodplain. Avulsion has shifted the foci of flooding and areas of aquatic habitat in the system over the last century. By ~1925, active wetlands surrounding the Old Macquarie River and the original conservation area contracted around Monkeygar Creek within the present nature reserve, and the boundary of this reserve has changed little since the 1940s. Ecological changes associated with continued wetland desiccation in the reserve triggered a recent Ramsar Article 3.2 notification for the Macquarie Marshes, prompting management responses from government agencies. Fluvial morphodynamics and their impacts on wetland ecology should be specifically recognised and integrated with adaptive management plans to combine new findings with lessons learned from previous intervention strategies for the long-term ecological sustainability of floodplain wetlands.

Published
2016
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49. Wandering wetlands

Author

Timothy J. Ralph, Paul Hesse, Gary Brierley, and Heijnis, H.

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