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Hancock, Peter J
Deliberate omission or unfortunate oversight: Should stygofaunal surveys be included in routine groundwater monitoring programs?
2007, Tomlinson, Moya, Boulton, Andrew John, Hancock, Peter J, Cook, P G
This essay briefly reviews perceived values of stygofauna and benefits of their inclusion in hydrogeological surveys of groundwater, and summarises the legislative and policy framework for stygofaunal surveys. Although focused on Australia, the issues discussed are of broad, international concern. A staged approach to surveys is advocated where investigations progressively increase in complexity. This aims to overcome the current paradox of omitting stygofauna from groundwater monitoring because there is insufficient information for the interpretation of survey results — yet, if stygofauna are not sampled, then the information will never be collected to address the knowledge gaps.
Human Impacts on the Stream-Groundwater Exchange Zone
2002, Hancock, Peter J
Active exchanges of water and dissolved material between the stream and groundwater in many porous sand- and gravel-bed rivers create a dynamic ecotone called the hyporheic zone. Because it lies between two heavily exploited freshwater resources - rivers and groundwater - the hyporheic zone is vulnerable to impacts coming to it through both of these habitats. This review focuses on the direct and indirect effects of human activity on ecosystem functions of the hyporheic zone. River regulation, mining, agriculture, urban, and industrial activities all have the potential to impair interstitial bacterial and invertebrate biota and disrupt the hydrological connections between the hyporheic zone and stream, groundwater, riparian, and floodplain ecosystems. Until recently, our scientific ignorance of hyporheic processes has perhaps excused the inclusion of this ecotone in river management policy. However, this no longer is the case as we become increasingly aware of the central role that the hyporheic zone plays in the maintenance of water quality and as a habitat and refuge for fauna. To fully understand the impacts of human activity on the hyporheic zone, river managers need to work with scientists to conduct long-term studies over large stretches of river. River rehabilitation and protection strategies need to prevent the degradation of linkages between the hyporheic zone and surrounding habitats while ensuring that it remains isolated from toxicants. Strategies that prevent anthropogenic restriction of exchanges may include the periodic release of environmental flows to flush silt and re-oxygenate sediments, maintenance of riparian buffers, effective land use practices, and suitable groundwater and surface water extraction policies.
A stygobitic 'Carabhydrus' Watts (Dytiscidae, Coleoptera) from the Hunter Valley in New South Wales, Australia
2007, Watts, CH, Hancock, Peter J, Leys, R
In this paper, the first discovery of a stygobitic beetle in eastern Australia, from the Pages River and Dart Brook alluviums in the upper Hunter Valley, New South Wales is reported. 'Carabhydrus stephanieae' sp. nov. (Dytiscidae, Hydroporini) is described and figured. An analysis of the complete tRNA-leu gene, part of the 16S ribosomal RNA gene and part of the NADH dehdrogenase subunit 1 gene was used to assess its relationship with congeneric surface species.
Biodiversity, functional roles and ecosystem services of groundwater invertebrates
2008, Boulton, Andrew John, Fenwick, G, Hancock, Peter J, Harvey, MS
Recent surveys of groundwater invertebrates (stygofauna) worldwide are yielding rich troves of biodiversity, with significant implications for invertebrate systematists and phylogeneticists as well as ecologists and groundwater managers. What is the ecological significance of this high biodiversity of invertebrates in some aquifers? How might it influence groundwater ecosystem services such as water purification or bioremediation? In terrestrial ecosystems, biodiversity is typically positively correlated with rates of ecosystem functions beneficial to humans (e.g. crop pollination). However, the links between biodiversity, ecosystem function, and ecosystem services in groundwater are unknown. In some aquifers, feeding, movement and excretion by diverse assemblages of stygofauna potentially enhance groundwater ecosystem services such as water purification, bioremediation and water infiltration. Further, as specific taxa apparently play 'keystone' roles in facilitating ecosystem services, declines in abundance or even their extinction have serious repercussions. One way to assess the functional significance of biodiversity is to identify ecosystem service providers', characterise their functional relationships, determine how service provision is affected by community structure and environmental variables, and measure the spatio-temporal scales over which these operate. Examples from Australian and New Zealand alluvial aquifers reveal knowledge gaps in understanding the functional importance of most stygofauna, hampering effective protection of currently undervalued groundwater ecosystem services.
Preface: hydrogeoecology, the interdisciplinary study of groundwater dependent ecosystems
2009, Hancock, Peter J, Hunt, Randall J, Boulton, Andrew J
Although we are still developing our understanding, there is increasing recognition that groundwater is essential to many ecological communities. Groundwater is a connector, not just in the aquifer itself, but within, across, and between surface waters and many terrestrial ecosystems. Where the water table intersects or comes close to the land surface, contributions of water and nutrients to plant roots and aquatic ecosystems can be critical to their persistence. Consider that precipitation is the dominant source of water in nearly all wetland systems, yet the influence of the lesser groundwater flow component can be sufficient from an ecological perspective to yield an entire new type of wetland, the fen. Influxes of groundwater to lakes, rivers, and wetlands can change whole-system physico–chemical properties such as temperature and salinity, while also providing more subtle influences on microenvironments and their ecological processes. Infiltration of water from surface aquatic ecosystems and rainfall can have an equally significant effect on aquifer ecology, especially on microbes and subsurface invertebrates. Whether water is flowing into or out of an aquifer, or is moving from one part to another, it is the extent and intensity of connectivity that often determines its importance to ecosystems. Moreover, the same location in space can have all three types of flows at different periods of time. Surface ecological processes (such as evapotranspiration) can significantly impact hydrological responses and related hydrochemical function. Thus, the relation of groundwater hydrology to patterns and processes in ecology is a 'two-way street' where understanding the feedback of one to the other serves as a powerful lens through which to evaluate and explain the functioning of natural ecosystems.
Sampling groundwater fauna: efficiency of rapid assessment methods tested in bores in eastern Australia
2009, Hancock, Peter J, Boulton, Andrew J
1. Growing recognition of the ecological significance and biodiversity of groundwater fauna in Australia has led to statutory requirements for monitoring these communities prior to resource development. However, the efficiency of methods for assessing community composition and taxa richness remains untested, hampering the collection of reliable data for compliance. 2. We assessed the efficiency of two commonly-used methods to sample groundwater fauna (net hauls and pumping) in bores in two contrasting regions (Dubbo and upper Hunter Valley) of eastern Australia. Repeated sets of seasonal samples from the upper Hunter Valley bores were used to test whether once-off sampling was sufficient for compliance purposes. 3. All taxa collected by the net method were also captured in pump samples. In addition, pumping yielded more taxa, higher total abundances, and higher numbers of the two most common taxa (syncarids and copepods) than the net. Ten net hauls in the upper Hunter Valley bores collected, on average, 64% of the taxa and 44% of total abundance. When combined with the first 100 L from pumping, cumulative totals rose to 92.5% and 74.5% respectively. Similar trends occurred in bores near Dubbo, indicating that net hauls alone under-sampled groundwater faunal communities. Multivariate analyses revealed substantial differences in community composition as each incremental subsample was added. 4. Temporal changes in community composition in the Hunter Valley aquifer were marked yet inconsistent across the bores. Initial once-off sampling collected 30–87% of the total taxa from each bore and new taxa were still being collected after four sampling periods in over half the bores. This shows that more than one sampling occasion is needed for comprehensive assessments of groundwater biodiversity. 5. Successful compliance monitoring of groundwater fauna requires cost-effective sampling that will not overlook potentially vulnerable taxa or miss ecologically relevant changes in community composition. Currently, a lack of suitable bores seems to be the main constraint on accurate assessment of groundwater invertebrate community composition in these two areas of eastern Australia.
Stygofauna biodiversity and endemism in four alluvial aquifers in eastern Australia
2008, Hancock, Peter J, Boulton, Andrew J
Short-range endemism is common in groundwater fauna (stygofauna), placing many species at risk from anthropogenic impacts such as water abstraction and pollution. Few of the alluvial aquifers in eastern Australia have been sampled for stygofauna. Fauna from two aquifers in Queensland and two in New South Wales was sampled to improve ecological knowledge of stygofauna and the potential threats posed to it by development. Our surveys found stygofauna in all four aquifers, with most taxa collected from bores with low electrical conductivity (<1500 μS cm⁻¹). Taxon richness decreased with distance below the water table. The most taxon-rich bores in each region occurred where the water table depth was <10 m, were associated with the alluvium of tributaries of large regulated river systems, and were near phreatophytic trees. It is possible that tree roots constitute a habitat and source of organic matter in alluvial aquifers as they do in cave streams. It is important to document the biodiversity of particular regions and aquifers so that species can be conserved in the face of increasing groundwater use. For effective resource management, future research should strive to understand the tolerances and ecological requirements of groundwater communities and the ecosystem services they provide.
Rivers as groundwater-dependent ecosystems: A review of degrees of dependency, riverine processes and management implications
2006, Boulton, AJ, Hancock, PJ
Many rivers are classified as groundwater-dependent ecosystems (GDEs), owing to the contribution of groundwater to their base flow. However, there has been little explicit recognition of the way groundwater influences riverine biota or processes, how degrees of ecological dependency may vary, and the management implications ofthis dependency. The permeable beds and banks of these GDEs where surface water and groundwater exchange are termed 'hyporheic zones'. They are often inhabited by invertebrates, with varying reliance on groundwater, although the ecological roles of these invertebrates are little known. Upwelling hyporheic water can promote surface primaryproductivity, influence sediment microbial activity, and affect organic matter decomposition. In many intermittent streams, variable groundwater inputs alter the duration of flow or water permanence, and the duration and timing of these largely govern the biota and rates of many ecosystem processes (e.g. leaf decomposition). Not only is the physical presence of water important, thermal and chemical conditions arising from groundwater inputs also have direct and indirect effects on riverine biota and rates or types of in-stream processes. Differing degrees of dependency of rivers on groundwater mediate all these influences, and may change over time and in response to human activities.Alteration of groundwater inputs through extraction from riparianwells or changes in localwater table have an impact on these GDEs, and some current management plans aim to restrict groundwater extraction from near permeable river channels. However, these are often ‘blanket’ restrictions and the mechanisms of GDE dependency or timing of groundwater requirements are poorly understood, hampering refinement of this management approach. More effective management of these GDEs into the future can result only from a better understanding of the mechanisms of the dependency, how these vary among river types and what in-stream changes might be predicted from alteration of groundwater inputs.
The response of hyporheic invertebrate communities to a large flood in the Hunter River, New South Wales
2006, Hancock, Peter J
Previous studies on recovery in hyporheic communities have found that communities rapidly return to predisturbance levels. However, most of these studies have concentrated on small floods or ones with shortreturn periods. I studied the impact of a large 1 in 6 year flood on the hyporheic community at 2 sites in the Hunter River, a large coastal river in New South Wales with a mean daily flow of 15 m³ s⁻¹. The flood peaked at 1270 m³ s⁻¹ and afterwards invertebrate densities at the 2 sites were 83 and 67% less than they were before. Recovery to pre-flood densities was slow but was aided by increases in the oligochaete and cyclopoid populations. At Site 1, there was a boom in oligochaete and cyclopoid numbers 61 d after the flood, but the communities resumed their pre-flood densities by Day 139. Recovery at Site 2 took 139 d. Most groundwater taxa (stygobites) living in the hyporheic zone did not recover from the disturbance when compared to non-stygobites. Apart from Microturbellaria and the harpacticoid 'Parastenocaris' sp., numbers of all stygobite taxa continued to decline after the flood, becoming absent after 61 d. The poor recovery of stygobites is probably due to their adaptations for survival in the relatively stable groundwater environment. This study shows that hyporheic communities are sensitive to large bed-moving floods and supports the hypothesis that ecotonal species with a strong affinity to one ecosystem can be poor at recovering from disturbances that occur in an adjacent ecosystem.
The effects of an environmental flow release on water quality in the hyporheic zone of the Hunter River, Australia
2005, Hancock, Peter J, Boulton, Andrew John
Environmental flow releases have been advocated as a useful rehabilitation strategy for improving river condition but assessments of their success have typically focused on surface water quality and biota. In this study, we investigated the impacts of an environmental flow release on water temperature, conductivity, dissolved oxygen, and nitrate concentrations in surface and subsurface (hyporheic) water at upwelling an downwelling zones in three sites along the Hunter, River, New South Wales, Australia. We hypothesised that the flow pulse would 'flush' the sediments with oxygenated water, stimulating hyporheic microbial activity and nitrification, enhancing nitrate concentrations over time. Surface and subsurface samples were collected before, 7 days after, and 49 days after an environmental flow release of 5000 Ml for a period of 3 days. no lasting effects on dissolved oxygen or conductivity were evident at most sites although dissolved oxygen declined over time at the downwelling site at Bowmans Crossing. At the downwelling zones at all sites, hyporheic nitrate concentrations declined initially following the release, but then rose or levelled off by Day 49. This initial drop in concentration was attributed to flushing of nitrate from the sediments. At two sites, nitrate concentrations had increased by Day 49 in the upwelling zones while at the third site, it fell significantly, associated with very low dissolved oxygen and likely reductive loss of nitrate. Electrical conductivity data indicate that potential inputs of agriculturally enriched groundwater may contribute to the nitrogen dynamics of the Hunter River. This study highlights the spatial heterogeneity that occurs in the hyporheic zone within and among sites of a regulated river, and emphasises the need for multiple-site surveys and an understanding of groundwater dynamics to assess physicochemical responses of the hyporheic zine to environmental flow releases.