The ‘wet-dry’ in the wet-dry tropics drives river ecosystem structure and processes in northern Australia

Warfe, Danielle M.; Pettit, Neil E.; Davies, Peter M.; Pusey, Bradley James; Hamilton, Stephen K.; Kennard, Mark J.; Townsend, Simon A.; Bayliss, Peter; Ward, Douglas; Douglas, Michael M.; Burford, Michele A.; Finn, Marcus; Bunn, Stuart E.; Halliday, Ian

doi:10.1111/j.1365-2427.2011.02660.x

Cited by 123 publications

(117 citation statements)

References 146 publications

(398 reference statements)

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“…Variability in stream discharge can also affect litter breakdown rates where high stream flows increase physical fragmentation of leaves as well as increasing the downstream fluxes of carbon and nutrients to microbes and other biota, thereby increasing mass loss of leaf litter (Glazebrook & Robertson, 1999;Gonçalves et al, 2006). In northern Australia, the strong climatic seasonal cycle of wet and dry seasons influences river hydrology (Boulton et al, 2008, Warfe et al, 2011, which in turn affect the dynamics of the aquatic food web (Douglas et al, 2005;Jardine et al, 2011). However, an understanding of how riverine physical conditions (e.g.…”

Section: Introductionmentioning

confidence: 99%

Leaf litter chemistry, decomposition and assimilation by macroinvertebrates in two tropical streams

et al. 2011

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Riparian vegetation typically provides substantial allochthonous material to aquatic ecosystems where micro-organisms can play an important role in organic matter degradation which can support consumer biomass. We examined the effects of leaf litter quality (e.g., leaf nutrients, lignin and cellulose content), leaf species mixing, and microbial community diversity on in-stream breakdown rates of litter from dominant riparian trees (Melaleuca argentea, M. leucadendra, and Nauclea orientalis) in both a perennial and intermittent river in Australia's wet-dry tropics. Leaf mass remaining after 82 days of in-stream incubation was negatively correlated (P \ 0.05) with initial leaf N and P content while initial lignin and cellulose content had no statistically significant effect. Breakdown rates of incubated leaves of both Melaleuca and Nauclea were significantly higher in mixed litter bags compared with single species litter bags. Although it was expected that leaf N content would decrease from initial levels during decomposition, we found either similar or slightly higher N content following in-stream incubation suggesting microbial colonisation increased overall N content. Stable isotopes of d 13 C and d 15 N for the major sources and consumers in both rivers provide evidence that leaf litter was an important macroinvertebrate food source in the perennial river where heavy shading may limit algal production. However, in the intermittent river where riparian cover was low, benthic algae were the major organic carbon source for consumers. Our findings suggest that riparian tree species influence rates of in-stream organic matter processing, microbial community composition, and aquatic food web dynamics in tropical wet-dry streams.

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Section: Introductionmentioning

confidence: 99%

Leaf litter chemistry, decomposition and assimilation by macroinvertebrates in two tropical streams

et al. 2011

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“…1) lies in the Northern Territory of Australia with an area of 53 000 km 2 , including an extensive area of seasonally inundated floodplain. The hydrology of the river is driven by a highly seasonal monsoonal pattern of flow, with > 90% of annual rainfall occurring in the wet monsoonal period (approximately November to April) (Webster et al 2005, Warfe et al 2011. During the wet season monsoon, inundation allows for the movement of fish from the main river channel onto the floodplain (Warfe et al 2011).…”

Section: Field Trialsmentioning

confidence: 99%

“…The hydrology of the river is driven by a highly seasonal monsoonal pattern of flow, with > 90% of annual rainfall occurring in the wet monsoonal period (approximately November to April) (Webster et al 2005, Warfe et al 2011. During the wet season monsoon, inundation allows for the movement of fish from the main river channel onto the floodplain (Warfe et al 2011). As water recedes in the dry monsoonal period (approximately May to October), fish, including P. pristis, retreat to isolated waterhole refugia, which may remain isolated for several months, until the system is reconnected in the following wet season (although interannual variability in rainfall can limit connectivity in some years).…”

Section: Field Trialsmentioning

confidence: 99%

Environmental DNA detects Critically Endangered largetooth sawfish in the wild

Simpfendorfer¹,

Kyne²,

Noble³

et al. 2016

Endang. Species. Res.

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Environmental DNA (eDNA) is a relatively new tool for the detection of rare, threatened and invasive species in water bodies. In this study we investigated the utility of an eDNA approach in detecting the Critically Endangered largetooth sawfish Pristis pristis in freshwater habitats in northern Australia. Water samples were collected from large aquaria mesocosms containing largetooth sawfish and other aquatic species, and floodplain waterholes and the main river channel of the Daly River, Northern Territory. Water samples were filtered using a 20 µm nylon filter. DNA was extracted from filters and analysed with PCR using species-specific mitochondrial cytochrome c oxidase subunit I (COI) primers designed to amplify only largetooth sawfish DNA. PCR products were cleaned and the COI gene sequenced to confirm the species identity. Using 3 aquaria, with one containing a largetooth sawfish, this method positively identified sawfish only in the correct aquarium. In the field water samples, 7 of 8 floodplain waterholes produced a sawfish eDNA PCR product, while eDNA was not detected in the main river channel. Based on gillnet sampling and traditional ecological knowledge, largetooth sawfish were known to occur at half of the waterhole and floodplain sites that tested positive for sawfish eDNA. These results demonstrated that an eDNA approach to detecting largetooth sawfish can produce reliable outcomes and can be used as a survey tool to help with conservation efforts for this and other threatened elasmobranchs.

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“…For example, in the middle Amazon it occupies approximately 0.5% of the basin but contributes 5% of the total organic matter to the downstream transport (Hedges et al, 1986). Plant communities in tropical seasonally flooded wetlands and floodplain lakes have been thoroughly studied for Northern Australia (Casanova & Brock, 2000;Finlayson, 2005;Warfe et al, 2011), india (Unni, 1971;Middleton, 1999;van der Valk, Middleton, Williams, Mason, & Davis, 1993), and Africa (Rees, 1978;Müller & Deil, 2005). in tropical and subtropical South America studies on the different aspects of the flooding cycles and their effect on aquatic vegetation were carried out in the Orinoco floodplains of Venezuelan (Castroviejo & López, 1985;Rial, 2000;2006), the Amazon (Junk, 1970;1986;Junk & Piedade, 1993;Ferreira, Piedade, Wittmann, & Franco, 2010;Piedade et al, 2010), the Pantanal (Do Prado, Heckman, & Martins, 1994;Frey, 1995;Fortney et al, 2004;Pott & Pott, 2004;Kufner, Scremin-Dias, & GuglieriCaporal, 2011;Pott, Pott, Lima, Moreira, & Oliveira, 2011), coastal Brazil (Rolon, Lacerda, Maltchik, & Guadagnin, 2008), and particularly the Paraná due to increasing river impoundments (e.g., Franceschi, Torres, Prado, & Lewis, 2000;Murphy et al, 2003;Thomaz, Souza, & Bini, 2003;Santos & Thomaz, 2007;Sabattini & Lallana, 2008;Santos & Thomaz, 2008;Padial et al, 2009;…”

mentioning

confidence: 99%

“…The dynamic character of these systems gives rise to complex primary and secondary production processes that are difficult to predict in detail, but nutrient input from rivers and streams are important in general, as a significant contribution can be expected following rainfall from the surrounding watershed. Nutrient cycling proceeds mainly through heterotrophic processes via bacteria, fungi, micro-zooplankton and shreddinginvertebrates (Melack & Fisher, 1990;Wantzen, Yule, Mathooko, & Pringle, 2008;Warfe et al, 2011). The interactions between rivers and their surrounding floodplain motivated Junk, Bayley, and Sparks (1989) to propose the 'flood pulse concept' as a main force controlling the biota of tropical floodplains.…”

mentioning

confidence: 99%

Dinámica estacional de la vegetación litoral en el complejo lagunar inundable Zapatosa, Colombia

Schmidt-Mumm

Janauer

2014

RBT

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Floodplain lakes and associated wetlands in tropical dry climates are controlled by pronounced and severe seasonal hydrologic fluctuations. We examined the plant community response to a bimodal flooding pattern in the Zapatosa Floodplain Lake Complex (ZFLC), Northern Colombia. We measured floristic and quantitative change in four sampling periods emphasizing seasonal differences in plant abundance and life-form structure. Of 79 species identified in the lake complex, 52 were used to characterize eight community types via classification and ordination procedures. Results showed that community structure does not change significantly during the flooding/receding stages. But maximum drawdown phase significantly disrupts the aquatic community structure and the exposed shorelines become colonized by ruderal terrestrial plants. Early rainfalls at the beginning of the wet season are emphasized as an important feature of plant regeneration and community development. The general strategy of the ZFLC vegetation can be framed into the flood pulse concept of river-floodplain systems. Thus, plant communities are mainly responding to disturbances and destruction events imposed by extreme water level fluctuations. Rev. Biol. Trop. 62 (3): 1073-1097. Epub 2014 September 01.Key words: Cesar River, flood pulse, littoral, macrophytes, Magdalena River, shallow lakes, bimodal seasonality.Floodplains play an important role regarding the biogeochemistry and ecology of tropical river systems. Plant and animal life of this particular system are adapted to the seasonal variations in space and time caused by extreme water level fluctuations. This seasonality also represents an important factor in the speciation of several aquatic and wetland plants (Haynes & Holm-Nielsen, 1989). The dynamic character of these systems gives rise to complex primary and secondary production processes that are difficult to predict in detail, but nutrient input from rivers and streams are important in general, as a significant contribution can be expected following rainfall from the surrounding watershed. Nutrient cycling proceeds mainly through heterotrophic processes via bacteria, fungi, micro-zooplankton and shreddinginvertebrates (Melack & Fisher, 1990;Wantzen, Yule, Mathooko, & Pringle, 2008;Warfe et al., 2011). The interactions between rivers and their surrounding floodplain motivated Junk, Bayley, and Sparks (1989) to propose the 'flood pulse concept' as a main force controlling the biota of tropical floodplains. They considered the floodplain as the area periodically inundated by the waters of rivers, lakes, lagoons, and/or underground water, or by direct precipitation. The concept aims to explain the physical and chemical conditions that obligate the biota to respond through different phenological, morphological, anatomical and/or physiological adaptations to predictable hydrological cycles. Given its alternation between aquatic and terrestrial phases, the flooded area of the shoreline is defined as 'aquatic-terrestrial transitional zone' (AT...

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The ‘wet-dry’ in the wet-dry tropics drives river ecosystem structure and processes in northern Australia

Cited by 123 publications

References 146 publications

Leaf litter chemistry, decomposition and assimilation by macroinvertebrates in two tropical streams

Leaf litter chemistry, decomposition and assimilation by macroinvertebrates in two tropical streams

Environmental DNA detects Critically Endangered largetooth sawfish in the wild

Dinámica estacional de la vegetación litoral en el complejo lagunar inundable Zapatosa, Colombia

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