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Journal articles on the topic 'Jervis Bay'

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Published: 4 June 2021
Last updated: 29 January 2023

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1

Burroughs, W. "Why Jervis Bay?" Maritime Studies 1987, no. 34 (May 1987): 1–6. http://dx.doi.org/10.1080/07266472.1987.11733468.

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2

Liao, Fanglou, and Xiao Hua Wang. "A Numerical Study of Coastal-Trapped Waves in Jervis Bay, Australia." Journal of Physical Oceanography 48, no. 11 (November 2018): 2555–69. http://dx.doi.org/10.1175/jpo-d-18-0106.1.

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AbstractCoastal-trapped waves (CTWs) in Jervis Bay were investigated using a Jervis Bay Ocean Model (JBOM), based on the Princeton Ocean Model. Under the typical temperature stratification in Jervis Bay in summer, the first three modes of external CTWs can scatter into the bay. The wind stress inside Jervis Bay can generate CTWs, and the wind stress on the adjacent shelf can also generate CTWs in the bay by oscillations at the bay's opening, which are associated with temperature fluctuations there. The actual subinertial CTWs in Jervis Bay are a result of the interference of these CTWs. The amplitudes of the first three CTW modes were calculated from the observed sea level data. Three numerical experiments were designed to identify the major forcing for the observed subinertial temperature oscillations in Jervis Bay during an observational program in the summer of 1988/89. It was found that the local wind stress was the major contributor to the observed oscillations.
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3

Ivanovici, Angela. "Jervis Bay – A Diver’s Delight." Wetlands Australia 6, no. 2 (January 6, 2010): 32. http://dx.doi.org/10.31646/wa.103.

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4

Litlewood, V. R. "Navy’s Relocation to Jervis Bay." Maritime Studies 1988, no. 40 (May 1988): 20–22. http://dx.doi.org/10.1080/07266472.1988.11449869.

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5

Gibbs, Mark T., Patrick Marchesiello, and Jason H. Middleton. "Nutrient enrichment of Jervis Bay, Australia, during the massive 1992 coccolithophorid bloom." Marine and Freshwater Research 48, no. 6 (1997): 473. http://dx.doi.org/10.1071/mf97035.

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A numerical simulation of the East Australian Current (EAC) has been used to investigate the nutrification of shelf waters at Jervis Bay, south-eastern Australia, prior to the massive coccolithophorid bloom that was first observed on 16 December 1992. The simulation suggests that a small cold-core eddy developed between the continental slope at Jervis Bay and the EAC jet further offshore during 7 and 14 December 1992. This unstable cold-core eddy is likely to have uplifted cold, nutrient-rich water onto the Jervis Bay shelf, and this upwelling, in combination with upwelling-favourable winds, probably transported nutrients from the deep ocean to the entrance of the bay.
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6

Day, Joanna, Jennalee A. Clark, Jane E. Williamson, Culum Brown, and Michael Gillings. "Population genetic analyses reveal female reproductive philopatry in the oviparous Port Jackson shark." Marine and Freshwater Research 70, no. 7 (2019): 986. http://dx.doi.org/10.1071/mf18255.

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Restricted gene flow and reproductive philopatry are increasingly being described in marine predators such as sharks. However, observing shark reproductive behaviour in situ is problematic because of issues associated with sampling in the marine environment. As such, molecular tools have become fundamental to unravelling complex mating behaviours. In this study, we examined patterns of genetic structure in the oviparous Port Jackson shark (Heterodontus portusjacksoni) using 10 microsatellite loci and the mitochondrial (mt)DNA control region. Patterns of genetic structure were investigated between breeding aggregations in Sydney and Jervis Bay, as well as between two sites within Jervis Bay. Significant genetic differentiation was detected between Sydney and Jervis Bay using mtDNA, but no structure was observed within Jervis Bay. No significant genetic differentiation was found with microsatellites within or between aggregations. Mean assignment index values were significantly higher for females than males in Jervis Bay, but not in Sydney. Both females and males migrate inshore during the Austral winter for breeding, but it appears females may exhibit higher levels of reproductive philopatry than males. This is the first study to document reproductive philopatry in an oviparous shark, highlighting the importance of conserving and appropriately managing breeding sites for H. portusjacksoni and potentially other oviparous shark species.
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7

Catford, Alan. "Jervis Bay: A very special place." Wetlands Australia 6, no. 2 (January 6, 2010): 6. http://dx.doi.org/10.31646/wa.98.

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8

Beckmann, Roger. "Monitoring Environmental Change at Jervis Bay." Maritime Studies 1991, no. 56 (January 1991): 8–10. http://dx.doi.org/10.1080/07266472.1991.10878264.

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9

Stokes, Vicki L., David M. Spratt, Peter B. Banks, Roger P. Pech, and Richard L. Williams. "Occurrence of Angiostrongylus species (Nematoda) in populations of Rattus rattus and Rattus fuscipes in coastal forests of south-eastern Australia." Australian Journal of Zoology 55, no. 3 (2007): 177. http://dx.doi.org/10.1071/zo06061.

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The distributions of the introduced nematode parasite, Angiostrongylus cantonensis, and the native Angiostrongylus mackerrasae in Australia are poorly understood. We sampled rodents and/or their faeces, and intermediate gastropod hosts for the presence of Angiostrongylus species in coastal forests surrounding Jervis Bay in south-eastern Australia. We found A. cantonensis in populations of introduced Rattus rattus in forests to the north of Jervis Bay, and A. mackerrasae in native Rattus fuscipes in forests to the south of Jervis Bay. The apparent geographical separation of these lungworm species may be a consequence of host specificity and negative associations between R. rattus and R. fuscipes that results from interspecific competition. A. cantonensis was regularly found in R. rattus or their faeces across 9 of 12 study sites north of Jervis Bay, and three species of snail common to the area were suitable intermediate hosts. This has potential negative implications for native wildlife and human visitors to these forests, because A. cantonensis infection causes zoonotic disease (neuro-angiostrongyliasis) in humans and a wide range of bird and mammal hosts. Management of pest rodents in the study area is warranted.
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10

Blackburn, SI, and G. Cresswell. "A coccolithophorid bloom in Jervis Bay, Australia." Marine and Freshwater Research 44, no. 2 (1993): 253. http://dx.doi.org/10.1071/mf9930253.

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A massive algal bloom of the coccolithophorid Gephyrocapsa oceanica Kamptner (Prymnesiophyceae) developed in Jervis Bay, a coastal embayment at 34�s on the New South Wales coast, in mid December 1992. The bloom coloured the entire bay a dramatic milky blue-green, which was clearly visible from aircraft and detectable in the visible band by the US satellite NOAA-11. The bloom, which reached cell densities of 1.8 x 107 cells L-1, persisted for a month. Such high densities of coccolithophorids have not been recorded before in Australian waters. Furthermore, it is the first record, world-wide, of a large-scale mono-specific bloom of G. oceanica. The bloom is suggested to have been driven by an intrusion of continental-slope water that continuously entered into the bottom of the bay.
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11

Thom, B. G. "Coastal geomorphology of the Jervis Bay area." Wetlands Australia 6, no. 2 (January 6, 2010): 19. http://dx.doi.org/10.31646/wa.100.

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12

Leadbitter, Duncan, and D. A. Pollard. "Proposals for aquatic reserves at Jervis Bay." Wetlands Australia 6, no. 2 (January 6, 2010): 28. http://dx.doi.org/10.31646/wa.102.

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13

Adam, Paul, and Patricia Hutchings. "The saltmarshes and mangroves of Jervis Bay." Wetlands Australia 6, no. 2 (January 6, 2010): 58. http://dx.doi.org/10.31646/wa.106.

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14

Cho, George. "Conservation and management in Jervis Bay, Australia." Aquatic Conservation: Marine and Freshwater Ecosystems 8, no. 5 (September 1998): 701–17. http://dx.doi.org/10.1002/(sici)1099-0755(199809/10)8:5<701::aid-aqc305>3.0.co;2-z.

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15

Tomczak, M., and E. Tanner. "An estimate of Bass Strait water Movement in the Western Tasman Sea during the Australian Coastal Experiment." Marine and Freshwater Research 40, no. 5 (1989): 465. http://dx.doi.org/10.1071/mf9890465.

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The presence and movement of Bass Strait Water along the continental slope of south-eastern Australia during the Australian Coastal Experiment (ACE) is estimated by evaluating the amount of salt and heat imported from Bass Strait for the five standard hydrographic ACE sections. South of Jervis Bay (35°S), the amounts decrease from September 1983 to February 1984 by a factor of two. North of Jervis Bay, the amounts depend strongly on the position of the East Australian Current and its eddies. It appears that during periods of low eddy activity Bass Strait Water can be carried northward well past Newcastle (33�S).
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16

West, R. J. "Littoral and sub-littoral habitats of Jervis Bay." Wetlands Australia 6, no. 2 (January 6, 2010): 48. http://dx.doi.org/10.31646/wa.105.

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17

Stimpson, Margaret Leith, JEREMY J. BRUHL, and PETER H. WESTON. "Could this be Australia’s rarest Banksia? Banksia vincentia (Proteaceae), a new species known from fourteen plants from south-eastern New South Wales, Australia." Phytotaxa 163, no. 5 (March 31, 2014): 269. http://dx.doi.org/10.11646/phytotaxa.163.5.3.

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Possession of hooked, distinctively discolorous styles, a broadly flabellate common bract subtending each flower pair, and a lignotuber place a putative new species, Banksia sp. Jervis Bay, in the B. spinulosa complex. Phenetic analysis of individuals from all named taxa in the B. spinulosa complex, including B. sp. Jervis Bay, based on leaf, floral, seed and bract characters support recognition of this species, which is described here as Banksia vincentia M.L.Stimpson & P.H.Weston. Known only from fourteen individuals, B. vincentia is distinguished by its semi-prostrate habit, with basally prostrate, distally ascending branches from the lignotuber, and distinctive perianth colouring. Its geographical location and ecological niche also separate it from its most similar congeners.
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18

Dexter, Nick, Paul Meek, Steve Moore, Matt Hudson, and Holly Richardson. "Population responses of small and medium sized mammals to fox control at Jervis Bay, southeastern Australia." Pacific Conservation Biology 13, no. 4 (2007): 283. http://dx.doi.org/10.1071/pc070283.

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At Jervis Bay, strategic pest programmes to control the Red Fox Vulpes vulpes have been in place on the Beecroft Weapons Range (BWR) Beecroft Peninsula, New South Wales since 1995 and Booderee National Park (BNP) Bherwerre Peninsula, Jervis Bay Territory since 1999. As an integral component of the BWR plan, monitoring terrestrial and arboreal mammals has been carried out and demonstrated a significant increase in the abundance of Common Ringtail Possum Pseudochelrus peregrinus, Long-nosed Bandicoot Perameles nasuta, and Bush Rat Rattus fuscipes. There was no significant change in the abundance of Brown Antechinus Antechinus stuartii, Sugar Glider Petaurus breviceps or Black Rat (R. raltus). At BNP changes in population abundance of mammals were not monitored, but a comparison of the abundance of terrestrial mammals between the fox baited BNP and the adjacent un-baited Jervis Bay National Park (JBNP) showed Long-nosed Bandicoots, Bush Rat and Brown Antechinus to be in higher abundance in BNP than JBNP. Scat analysis further supported this finding (Roberts et aI, 2006), We assert that these combined findings are evidence that terrestrial native fauna have responded positively to continued fox control on both peninsulas, thus proving that measuring prey responses are a positive measure of success for strategic pest control programmes.
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19

Bass, Nathan Charles, Johann Mourier, Nathan A. Knott, Joanna Day, Tristan Guttridge, and Culum Brown. "Long-term migration patterns and bisexual philopatry in a benthic shark species." Marine and Freshwater Research 68, no. 8 (2017): 1414. http://dx.doi.org/10.1071/mf16122.

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Knowledge of the broad-scale movement patterns of sharks is essential to developing effective management strategies. Currently there is a large bias in studies focusing on species that are either large apex predators or found in tropical to subtropical regions. There is limited knowledge of the movements and migrations of benthic and temperate shark species. The present study used passive acoustic telemetry to investigate the movement patterns of a benthic shark species, the Port Jackson shark (Heterodontus portusjacksoni). Individuals were tagged with acoustic transmitters between 2012 and 2014 and their movements were monitored within Jervis Bay and along the east Australian coastline for up to 4 years. Male and female Port Jackson sharks demonstrated high levels of philopatry to both Jervis Bay and their tagging location across multiple years. Although males and females did not differ in their arrival times, females departed from Jervis Bay later than males. Approximately half the tagged individuals migrated in a southward direction, with individuals being detected at Narooma, Bass Strait and Cape Barron Island. This study provides conclusive evidence of bisexual philopatry in a benthic temperate shark species, confirming previous hypotheses, and presents the most detailed migration route for Port Jackson sharks to date.
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20

Holloway, PE, G. Symonds, and Vaz R. Nunes. "Observations of circulation and exchange processes in Jervis Bay, New South Wales." Marine and Freshwater Research 43, no. 6 (1992): 1487. http://dx.doi.org/10.1071/mf9921487.

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This paper discusses oceanographic observations obtained in and near Jervis Bay, a small coastal embayment of approximately 124 km2 situated on the New South Wales coast, during a series of measurement programmes spanning three years. Various mechanisms that drive water circulation within the bay and water exchange between the bay and the adjacent continental shelf are discussed. Current meter data from within the bay show surprisingly little correlation with the wind. Currents are characterized by persistent flows in one direction for periods of months, and it is suggested that influences from the shelf are responsible for driving the bay circulation. Flow through the bay entrance is weakly correlated with the wind at a period of around eight days, with near-surface inflow on the southern side of the entrance being in phase with deeper outflow on the northern side and vice versa. The shelf waters are well known for their coastally trapped waves. These have the potential to oscillate vertically the density surfaces on the shelf on a time scale of around eight days, and observations indicate that these waves are an additional mechanism driving circulation in the bay. The shelf waters are influenced by the warm East Australia Current and its eddies, and this appears to maintain a density contrast between the bay and the shelf for most of the year, with the shelf waters being less dense, which may be an additional mechanism driving bay circulation. Current-meter data from the bay entrance show a persistent northward current component in contrast to the strong southward flow of the East Australia Current on the shelf. Conductivity-temperature- depth data reveal cold, dense water flowing out of the bay during periods of strong winter cooling and the effects of warm eddies pushing warm water into the bay and displacing cold deeper water away from the bay. The heating/cooling cycle of the bay appears to be influenced by advection processes on the shelf as well as by aidsea heat and radiation exchanges.
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21

Leadbitter, Duncan. "The sediments and associated invertebrate communities of Jervis Bay." Wetlands Australia 6, no. 2 (January 6, 2010): 22. http://dx.doi.org/10.31646/wa.101.

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22

Waterman, Peter, and D. Leadbitter. "Annotated bibliography on the marine environment of Jervis Bay." Wetlands Australia 6, no. 2 (January 6, 2010): 91. http://dx.doi.org/10.31646/wa.109.

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23

LOWRY, J. K. "Talitrid amphipods from ocean beaches along the New South Wales coast of Australia (Amphipoda, Talitridae)." Zootaxa 3575, no. 1 (December 7, 2012): 1. http://dx.doi.org/10.11646/zootaxa.3575.1.1.

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The sand-hopper Bellorchestia mariae sp. nov. is described from Honeymoon Bay on the north coast of Jervis Bay, NewSouth Wales, Australia. It is the sister species of B. richardsoni Serejo & Lowry, 2008 and appears to have a limited dis-tribution from about Narrawallee in the south to northern Jervis Bay. The distribution of B. richardsoni Serejo & Lowry,2008 is extended from Point Ricardo, Victoria, northwards to Ulladulla on the New South Wales coast. A new synonymyis proposed for the sand-hopper Notorchestia quadrimana (Dana, 1852) which includes N. novaehollandiae (1899) andN. lobata Serejo & Lowry, 2008. It is considered to be a wide-ranging species from Shark Bay in Western Australia aroundthe south coast to at least Maitland Bay in central New South Wales. The beach-hopper Orchestia dispar Dana, 1852 isdescribed from Valla Beach in northern New South Wales and moved to the new genus Vallorchestia. This is the first re-cord of V. dispar since its original description 160 years ago. The beach-hopper Platorchestia smithi sp. nov. is describedfrom Brooms Head, New South Wales, Australia. It is common on ocean beaches from Bendalong in the south to Ballina in northern New South Wales. South of Bendalong beach-hoppers on ocean beaches appear to be absent.
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24

Bowyer, J. K. "Basin changes in Jervis Bay, New South Wales: 1894–1988." Marine Geology 105, no. 1-4 (March 1992): 211–24. http://dx.doi.org/10.1016/0025-3227(92)90189-o.

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25

Lindenmayer, David B., Christopher MacGregor, Darren Brown, Rebecca Montague-Drake, Mason Crane, Damian Michael, and Bruce D. Lindenmayer. "Aves, Booderee National Park, Jervis Bay territory, south-eastern Australia." Check List 5, no. 3 (August 1, 2009): 479. http://dx.doi.org/10.15560/5.3.449.

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A large-scale, long-term study is being conducted to describe the bird assemblages inhabiting a 6500 ha area at Booderee National Park, south-eastern Australia. In this paper, we provide a list of birds recorded within rainforest, forest, woodland, shrubland, heathland and sedgeland during surveys conducted each spring between 2003 and 2007. Of particular interest was the contrast between the birds of sites burned in a wildfire in 2003 and sites that remained unburned. We recorded a total of 103 species from 35 families. We found that after the major fire, the vast majority of individual species and the bird assemblage per se in most vegetation types recovered within two years. Exceptions occurred in structurally simple vegetation types such as sedgeland and wet heathland in which reduced levels of species had not returned to pre-fire (2003) levels by 2007.
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26

Meek, Paul, Richard Hawksby, Athol Ardler, Matt Hudson, and Kersten Tuckey. "Eradication of Black RatsRattus rattusL. from Bowen Island, Jervis Bay NSW." Australian Zoologist 35, no. 3 (January 2011): 560–68. http://dx.doi.org/10.7882/az.2011.008.

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27

Leadbitter, D., and D. A. Pollard. "Fishing and diving activities in Jervis Bay: past and present usages." Wetlands Australia 6, no. 2 (January 6, 2010): 65. http://dx.doi.org/10.31646/wa.107.

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28

Brock, John. "Warren Halloran and the Lady Denman heritage complex at Jervis Bay." Australian Surveyor 42, no. 1 (March 1997): 51–52. http://dx.doi.org/10.1080/00050326.1997.10441787.

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29

Brock, John. "Warren Halloran and the Lady Denman Heritage Complex at Jervis Bay." Australian Surveyor 42, no. 1 (March 1997): 51–52. http://dx.doi.org/10.1080/00050342.1997.10558666.

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30

Payne, Aaron. "Observations on the Calling Behaviour of the Jervis Bay Tree FrogLitoria jervisiensis." Australian Zoologist 37, no. 2 (January 2014): 263–66. http://dx.doi.org/10.7882/az.2014.017.

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31

Bryant, Edward A., Robert W. Young, David M. Price, David J. Wheeler, and Mark I. Pease. "THE IMPACT OF TSUNAMI ON THE COASTLINE OF JERVIS BAY, SOUTHEASTERN AUSTRALIA." Physical Geography 18, no. 5 (September 1997): 440–59. http://dx.doi.org/10.1080/02723646.1997.10642629.

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32

Norris, RH, JL Moore, WA Maher, and LP Wensing. "Limnological characteristics of two coastal Dune Lakes, Jervis Bay, South Eastern Australia." Marine and Freshwater Research 44, no. 3 (1993): 437. http://dx.doi.org/10.1071/mf9930437.

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Limnological features of two permanent, closed, coastal dune lakes that are separated by only about 400 m are reported. The depth of Lake Windermere fluctuated by about 7 m during this study (1982- 1988); however, fluctuations up to 15 m were observed between 1970 and 1988. Lake Windermere is exposed to wind mixing, is transparent and is usually mixed, or only weakly stratified. Lake McKenzie is semi-perched, darkly coloured and strongly stratified with an anoxic hypolimnion during summer. It is about one fifth of the surface area and half the depth of Lake Windermere and protected from wind mixing. Both lakes are acidic and have low salinity, and the dominant ions are sodium and chloride probably from precipitation of marine aerosols. Oxygen depletion in the hypolimnion of both lakes indicates a substantial organic load, the source of which is allochthonous material from the catchment rather than autochthonous material. Lake Windermere had higher densities of zooplankton (mostly Calamoecia tasmanica) than Lake McKenzie, but the latter lake had higher numbers of the predaceous Chaoborus sp. Lake McKenzie had higher invertebrate densities than Lake Windermere and these fluctuated widely between years, corresponding with variation in rainfall. Mayflies and chironomids were numerically dominant in Lake McKenzie, and caddisflies and chironomids were numerically dominant in Lake Windermere. Turtle and odonate predators were more common in Lake McKenzie than in Lake Windermere. It is postulated that biological interactions are more important in shaping the communities in Lake McKenzie and physical factors such as wave action are more important in Lake Windermere.
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33

Smith, SDA. "Impact of domestic sewage effluent versus natural background variability: An example from Jervis Bay, New South Wales." Marine and Freshwater Research 45, no. 6 (1994): 1045. http://dx.doi.org/10.1071/mf9941045.

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The effects of an outfall of low-volume, tertiary-treated effluent were evaluated within Jervis Bay on the southern coast of New South Wales by using the macrofauna inhabiting kelp (Ecklonia radiata) holdfasts. A range of analytical methods was used to determine differences in faunistic patterns between six sites (three close to the outfall and three controls) in the winters of 1990 and 1991. The analyses indicated that community structure was highly variable over both the spatial and the temporal scales of the study. Although some of the methods provided results consistent with a perturbed environment on the first sampling occasion (ABC plots, log-normal plots), these patterns were not repeated on the second sampling occasion. In addition, the species primarily responsible for the 'perturbed' configuration with those methods were from taxa that have been highlighted as pollution-sensitive in other studies of holdfast fauna. Non-parametric multivariate statistical methods (MDS, ANOSIM) consistently showed significant differences among sites but also revealed highly significant differences within a site over time. There was no consistent difference between sites closest to the outfall and more distant sampling locations and so no outfall effect was suggested. The results indicate that natural environmental factors are more influential than the low-volume, tertiary-treated effluent from the outfall in determining patterns of community structure in the holdfast community within Jervis Bay.
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34

LANGTRY, SCOTT K., and CHARLES A. JACOBY. "Fish and decapod crustaceans inhabiting drifting algae in Jervis Bay, New South Wales." Austral Ecology 21, no. 3 (September 1996): 264–71. http://dx.doi.org/10.1111/j.1442-9993.1996.tb00608.x.

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35

YOUNG, R. W., S. COPE, D. M. PRICE, A. R. CHIVAS, and B. E. CHENHALL. "Character and Age of Lateritic Weathering at Jervis Bay, Southern New South Wales." Australian Geographical Studies 34, no. 2 (October 1996): 237–46. http://dx.doi.org/10.1111/j.1467-8470.1996.tb00119.x.

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36

Baldwin, S., W. Maher, E. Kleber, and F. Krikowa. "Selenium in marine organisms of seagrass habitats (Posidonia australis) of Jervis Bay, Australia." Marine Pollution Bulletin 32, no. 3 (March 1996): 310–16. http://dx.doi.org/10.1016/0025-326x(95)00186-q.

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37

Zakharov, John. "A review of Aboriginal cultural factors for the Jervis Bay area, New South Wales." Wetlands Australia 6, no. 2 (January 6, 2010): 9. http://dx.doi.org/10.31646/wa.99.

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38

Candela, Andrea. "Sorting out nuclear concerns: The Australian uranium debate from Jervis Bay to Ringwood's Synroc." Earth Sciences History 36, no. 1 (January 1, 2017): 116–41. http://dx.doi.org/10.17704/1944-6178-36.1.116.

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This paper critically considers the history of nuclear energy in Australia, placing particular emphasis on the strong debate about uranium mining and exporting which occurred between the late 1960s and early 1980s. Though this topic has been already analyzed by different historical studies and through numerous methodological approaches, some issues of the Australian as well as international ‘atomic debate’ which involved civil uses of nuclear power in the second half of the 20th century remain under-investigated. This article, for instance, focuses on the little-known and seldom popularized history of Synroc which, in the late 1970s, was presented as the ‘geological perspective’ to deal with radioactive waste disposal. The matters under discussion here are particularly important because of their links with some key issues still prevalent in the international nuclear debate, such as nuclear safety, atomic weapons proliferation and the safe disposal of nuclear wastes.
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39

Vrbancich, Julian, Robert J. Whiteley, and Don W. Emerson. "Marine seismic profiling and shallow marine sand resistivity investigations in Jervis Bay, NSW, Australia." Exploration Geophysics 42, no. 2 (June 2011): 127–38. http://dx.doi.org/10.1071/eg10037.

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40

Vrbancich, Julian, Robert J. Whiteley, and Don W. Emerson. "Marine seismic profiling and shallow marine sand resistivity investigations in Jervis Bay, NSW, Australia." ASEG Extended Abstracts 2010, no. 1 (December 2010): 1–4. http://dx.doi.org/10.1081/22020586.2010.12041845.

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41

Clarke, Samantha L., Thomas C. T. Hubble, G. Miao, D. W. Airey, and S. N. Ward. "Eastern Australia’s submarine landslides: implications for tsunami hazard between Jervis Bay and Fraser Island." Landslides 16, no. 11 (July 11, 2019): 2059–85. http://dx.doi.org/10.1007/s10346-019-01223-6.

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42

Warwick-Champion, Elizabeth, Kevin P. Davies, Paul Barber, Naviin Hardy, and Eleanor Bruce. "Characterising the Aboveground Carbon Content of Saltmarsh in Jervis Bay, NSW, Using ArborCam and PlanetScope." Remote Sensing 14, no. 8 (April 7, 2022): 1782. http://dx.doi.org/10.3390/rs14081782.

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Coastal ecosystems, including saltmarsh, provide important ecosystem services, including blue carbon storage, nutrient cycling, and coastal protection. The loss or degradation of saltmarsh ecosystems may undermine their capacity to provide these services and drive carbon emission increases. The accurate mapping and monitoring of the aboveground carbon content in these ecosystems supports protection and rehabilitation activities. Previous studies have used medium resolution satellites (e.g., Landsat and Sentinel-2) to characterise saltmarsh communities; however, these platforms are not well suited to the fine-scale patchiness of the saltmarsh ecosystems found in Australia. Here we explore the potential of a very high spatial resolution (0.15 m), seven-band multispectral ArborCam airborne sensor and 3 m images captured by the PlanetScope satellite constellation for mapping and monitoring the aboveground carbon content of a saltmarsh ecosystem in Jervis Bay National Park, Australia. The Normalized Difference Vegetation Index (NDVI) derived from an ArborCam image was calibrated to aboveground carbon content using field survey data. Strong linear relationships between the ArborCam NDVI and aboveground carbon content were found when survey data were partitioned by species. The mean aboveground carbon content derived from the calibrated ArborCam image was 1.32 Mg C ha−1 across the study area; however, this is likely to have been underestimated. A monthly NDVI time series derived from 12 PlanetScope images was analysed to investigate the short-term temporal variation in saltmarsh phenology, and significant intra-annual variation was found. An exploration of potential drivers for the variation found that local rainfall was a potential driver. The combination of the very high spatial resolution airborne ArborCam image and the regular 3 m capture by PlanetScope satellites was found to have potential for accurate mapping and monitoring of aboveground carbon in saltmarsh communities. Future work will focus on improving aboveground carbon estimates by including a very high spatial resolution species distribution map and investigating the influence of temporal variations in saltmarsh spectral response on these estimates.
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43

Snowdon, Peter. "Growth ofPinus elliottii, P. pinasterandP. radiataon coastal dune soils near Jervis Bay, Australian Capital Territory." Australian Forestry 66, no. 3 (January 2003): 161–69. http://dx.doi.org/10.1080/00049158.2003.10674907.

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44

Halley, Morgiana P. "Book Review: If the Gods are Good: The Epic Sacrifice of the HMS Jervis Bay." International Journal of Maritime History 17, no. 1 (June 2005): 420–21. http://dx.doi.org/10.1177/084387140501700194.

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45

Sarty, Roger. "Book Review: Atlantic Convoys and Nazi Raiders: The Deadly Voyage of the HMS “Jervis Bay.”." International Journal of Maritime History 18, no. 1 (June 2006): 523–25. http://dx.doi.org/10.1177/0843871406018001104.

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46

JUST, JEAN. "Siphonoecetini Just, 1983 (Crustacea, Amphipoda, Ischyroceridae) 9: New species in Rhinoecetes Just, 1983, Cephaloecetes gen. nov. and Neoecetes gen. nov. from the south-eastern Australian shelf." Zootaxa 3234, no. 1 (March 14, 2012): 1. http://dx.doi.org/10.11646/zootaxa.3234.1.1.

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Six new species of Rhinoecetes Just, 1983, R. rhinoceros, R. dinoceros, R. brevirostris, R. coclearis, R. albomaculosus andR. meridianus, are described together with Cephaloecetes enigmaticus gen. nov., sp. nov. and Neoecetes conipes gen.nov., sp. nov. from eastern Australia from Moreton Bay in Queensland to Bass Strait and Tasmania. Cephaloecetes gen.nov. differs from Rhinoecetes by having the head front margin entire and a pseudorostrum arising underneath from thefrons. Neoecetes gen. nov. differs from Rhinoecetes in having two robust setae instead of one on the posterior projectionof gnathopod 2 carpus, a row of small accessory robust setae on pereopods 5 and 6 carpus instead of a single one, anduropod 3 ramus being conical instead of round. Keys to genera and species are given. A novel character, a pair of sternalpapillae, is documented in Rhinoecetes and Cephaloecetes on the ventral surface of pereonite 7 in adult females. The dis-tribution of the species is commented upon. The most diverse fauna of Siphonoecetini was found in Jervis Bay, New South Wales.
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47

Roberts, Michael W., Nick Dexter, Paul D. Meek, Matt Hudson, and William A. Buttemer. "Does baiting influence the relative composition of the diet of foxes?" Wildlife Research 33, no. 6 (2006): 481. http://dx.doi.org/10.1071/wr05009.

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The changes in the diet of foxes (Vulpes vulpes) in the Jervis Bay Region was assessed following a long-term baiting program by analysing the composition of fox faecal excreta (scats). In all, 470 fox scats were collected between April and August 2003 from two baited sites, Booderee National Park (BNP) and Beecroft Peninsula, and from two unbaited sites in the southern and northern parts of Jervis Bay National Park (SJBNP and NJBNP respectively). Diet was compared between these sites and mammalian diet was also compared from scats collected before baiting in 1996 and after baiting in 2000 at Beecroft Peninsula and in 2001 at Booderee National Park. In 2003, the most common species consumed by foxes was the common ringtail possum (Pseudocheirus peregrinus), except at unbaited NJBNP, where the swamp wallaby (Wallabia bicolor) was the most frequent dietary item. Significant dietary differences were found between unbaited and baited sites, with the long-nosed bandicoot (Perameles nasuta) and P. peregrinus featuring more in the diet of foxes from the baited sites. Marked increases in the frequency of occurrence of P. peregrinus and P. nasuta in fox scats occurred from before baiting through to after baiting. Relative fox abundance, as indexed by the number of scats collected per kilometre, was lowest in Booderee, followed by Beecroft, then SJBNP, with NJBNP having the highest relative abundance of foxes. We suggest that baiting did affect the diet of foxes on both peninsulas and that the dietary changes across baiting histories were intrinsically related to an increase in abundance in some taxa as a result of relaxed predator pressure following sustained fox control. However, the lack of unbaited control sites over the whole study precludes a definitive conclusion.
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Dutton, I. M., P. Saenger, T. Perry, G. Luker, and G. L. Worboys. "An integrated approach to management of coastal aquatic resources—a case study from Jervis Bay, Australia." Aquatic Conservation: Marine and Freshwater Ecosystems 4, no. 1 (March 1994): 57–73. http://dx.doi.org/10.1002/aqc.3270040106.

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49

Meek, Paul D., and Glen Saunders. "Home range and movement of foxes (Vulpes vulpes) in coastal New South Wales, Australia." Wildlife Research 27, no. 6 (2000): 663. http://dx.doi.org/10.1071/wr98030.

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Data on the home range and activity of 14 foxes was collected from coastal habitat in Jervis Bay, New South Wales during 1993–95. Radio-collared foxes had a mean home range of 135 ha and core activity areas of 23 ha (determined by the Minimum Convex Polygon method). There were no significant differences in the home ranges of male and female foxes. The home ranges of some foxes shifted throughout the study. Some animals went on long forays beyond their normal range. All animals displayed nocturnal activity patterns except during the breeding season or after long spells of wet weather when some foraging occurred during daylight hours. The information collected in this study is discussed in the context of fox control.
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50

Hamer, Gary, and Neil Jacobs. "The biology, fishery and mamagement of the commercial scallop (Pecten famatus) in Jervis Bay, New South Wales." Wetlands Australia 6, no. 2 (January 6, 2010): 39. http://dx.doi.org/10.31646/wa.104.

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