Relevant bibliographies by topics / Salt lake ecology Victoria

Academic literature on the topic 'Salt lake ecology Victoria'

Author: Grafiati

Published: 10 December 2022

Last updated: 29 January 2023

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Journal articles on the topic "Salt lake ecology Victoria"

Webster-Brown, J., M. Gall, J. Gibson, S. Wood, and I. Hawes. "The biogeochemistry of meltwater habitats in the Darwin Glacier region (80°S), Victoria Land, Antarctica." Antarctic Science 22, no. 6 (December 2010): 646–61. http://dx.doi.org/10.1017/s0954102010000787.

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AbstractMeltwater habitats in the Darwin Glacier region, Victoria Land (80°S), were sampled in December 2007 and January 2009 to characterize their microbial and metazoan ecology, nutrient status and geochemistry. Targeted areas included terrestrial ponds of the Grant Valley, Lake Wellman, Tentacle Ridge and Diamond Hill, and supraglacial ponds and cryoconite holes of the lower Darwin Glacier. Geochemistry ranged from Na-Cl dominated terrestrial ponds to Na-HCO3dominated, dilute supraglacial ponds and cryoconites. All showed the nitrate enrichment typical of inland ponds of Victoria Land (up to 13 g.l-1NO3-N), with some precipitating nitratine (NaNO3) salt. Elevated pH indicated ongoing photosynthetic processes. Benthic microbial mats were thin and poorly developed, dominated by oscillatoriacean cyanobacteria. Nitrogen-fixing genera were generally absent and diatoms were rare. A large (20 μm long)Cyanothecespecies was the most abundant cyanobacterium in the water and in sediments of the cryoconites. DNA finger-printing identified distinct differences in cyanobacterial and bacterial community structure between the cryoconites, terrestrial ponds and ponds on glacial margins. Eleven metazoan species were identified, with rotifers being the most abundant. Pond substrate (terrestrial rock, ice-cored moraine or supraglacial ice) proved to be a more significant influence on biogeochemistry than other aspects of geography or climatic conditions.

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Tully, Benjamin J., Joanne B. Emerson, Karen Andrade, Jochen J. Brocks, Eric E. Allen, Jillian F. Banfield, and Karla B. Heidelberg. "De NovoSequences ofHaloquadratum walsbyifrom Lake Tyrrell, Australia, Reveal a Variable Genomic Landscape." Archaea 2015 (2015): 1–12. http://dx.doi.org/10.1155/2015/875784.

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Hypersaline systems near salt saturation levels represent an extreme environment, in which organisms grow and survive near the limits of life. One of the abundant members of the microbial communities in hypersaline systems is the square archaeon,Haloquadratum walsbyi. Utilizing a short-read metagenome from Lake Tyrrell, a hypersaline ecosystem in Victoria, Australia, we performed a comparative genomic analysis ofH. walsbyito better understand the extent of variation between strains/subspecies. Results revealed that previously isolated strains/subspecies do not fully describe the complete repertoire of the genomic landscape present inH. walsbyi. Rearrangements, insertions, and deletions were observed for the Lake Tyrrell derivedHaloquadratumgenomes and were supported by environmentalde novosequences, including shifts in the dominant genomic landscape of the two most abundant strains. Analysis pertaining to halomucins indicated that homologs for this large protein are not a feature common for all species ofHaloquadratum. Further, we analyzed ATP-binding cassette transporters (ABC-type transporters) for evidence of niche partitioning between different strains/subspecies. We were able to identify unique and variable transporter subunits from all five genomes analyzed and thede novoenvironmental sequences, suggesting that differences in nutrient and carbon source acquisition may play a role in maintaining distinct strains/subspecies.

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Wisenden, Brian D. "Paradise Lost in Lake Victoria." Ecology 78, no. 5 (July 1997): 1608. http://dx.doi.org/10.1890/0012-9658(1997)078[1608:plilv]2.0.co;2.

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Wisenden, Brian D., and Tijs Goldschmidt. "Darwin's Dreampond: Drama in Lake Victoria." Ecology 78, no. 5 (July 1997): 1608. http://dx.doi.org/10.2307/2266155.

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Johnson, Thomas C., Kerry Kelts, and Eric Odada. "The Holocene History of Lake Victoria." AMBIO: A Journal of the Human Environment 29, no. 1 (February 2000): 2–11. http://dx.doi.org/10.1579/0044-7447-29.1.2.

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Greenwood, P. H. "The Nile perch in Lake Victoria." Oryx 20, no. 4 (October 1986): 249. http://dx.doi.org/10.1017/s0030605300020305.

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Mugidde, Rose, Robert E. Hecky, Len L. Hendzel, and William D. Taylor. "Pelagic Nitrogen Fixation in Lake Victoria (East Africa)." Journal of Great Lakes Research 29 (January 2003): 76–88. http://dx.doi.org/10.1016/s0380-1330(03)70540-1.

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Cowx, I. G., M. van der Knaap, L. I. Muhoozi, and A. Othina. "Improving Fishery Catch Statistics for Lake Victoria." Aquatic Ecosystem Health & Management 6, no. 3 (September 2003): 299–310. http://dx.doi.org/10.1080/14634980301490.

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MITEMA, E. S., and F. K. GITAU. "Organochlorine residues in fish from Lake Victoria, Kenya." African Journal of Ecology 28, no. 3 (September 1990): 234–39. http://dx.doi.org/10.1111/j.1365-2028.1990.tb01156.x.

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OGARI, J., and M. VAN DER KNAAP. "Solarization of water hyacinth, Eichhornia crassipes , on Lake Victoria." Fisheries Management and Ecology 9, no. 6 (December 2002): 365–67. http://dx.doi.org/10.1046/j.1365-2400.2002.00303.x.

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Dissertations / Theses on the topic "Salt lake ecology Victoria"

Vest, Josh L. "Winter Ecology of Waterfowl on the Great Salt Lake, Utah." DigitalCommons@USU, 2013. https://digitalcommons.usu.edu/etd/2051.

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I designed a suite of studies in coordination with Utah Division of Wildlife Resources (UDWR) to evaluate waterfowl use of the GSL in winter and ecological aspects associated with GSL use. These studies provided insight into key information gaps previously identified by UDWR regarding management of GSL resources. Population surveys indicated total duck abundance was low when GSL surface elevations were low and wetland resources diminished because of persistent drought in the system. Also, ducks appear to use hypersaline parts of GSL more when freshwater habitats are limited from either drought or ice conditions. Common goldeneye, northern shoveler, and green-winged teal exhibited the most use of hypersaline areas. Dietary evaluations indicated all three species feed on hypersaline invertebrates from GSL to meet energetic and nutritional needs in winter. Brine shrimp cysts were important foods for northern shoveler and green-winged teal. Fat levels of ducks are important determinants of survival and fitness. Fat reserves of goldeneye were generally lower in the winter when both GSL and wetland habitat resources were lower. Results suggest brine fly larvae productivity, freshwater habitat availability, and temperature and wind speed likely play a more prominent role in goldeneye fat reserves than osmoregulation. Also, common goldeneye and northern shoveler using the GSL apparently accumulated biologically concerning amounts of mercury and selenium during winter. However, further research is needed to evaluate the effect of these elements on GSL ducks.

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Pendleton, Maya Cassidy. "Ecosystem Functioning of Great Salt Lake Wetlands." DigitalCommons@USU, 2019. https://digitalcommons.usu.edu/etd/7557.

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The Great Salt Lake (GSL) wetlands account for ~75% of all Utah wetlands and provide not only critical habitat for millions of migratory birds, but also provide valuable ecosystem functions and services as well as economic benefits to Utahns. However, these wetlands are facing an aggressive invader, Phragmites australis, that has spreading across the GSL wetlands and replacing native wetland habitats. Wetland managers have spent countless resources and time trying to control the spread of P. australis and restore GSL wetlands. However, we do not fully understand how these wetlands functions and services are being altered with this habitat homogenization because functional data for our wetland species have not been well documented. This lack of knowledge may hinder wetland restoration efforts. To create baseline functional data for the GSL wetland species and better understand how the spread of P. australis might be affecting the overall health of the system, I measured eight individual ecosystem functions for seven dominant habitat types found across the GSL wetlands. I compared these individual functions across habitat types as well as created two different multifunctionality indices using an averaging and a thresholds approach. With these comparisons, I was able to determine the distinct functional strengths of different wetland habitat types and their overall functional abilities. I found that functional abilities varied greatly by habitat type and that not one single habitat could support every function even at the lowest threshold measured. I found that Typha latifolia, Schoenoplectus acutus, and P. australis, had the highest multifunctional values. However, I also found that some habitats offered unique functions, such as Salicornia rubra and playa, and that these functions were lacking in other habitats, including the most multifunctional habitats. These findings suggest that maintaining habitat heterogeneity will be critical in ensuring a fully functioning wetland system that can provide a multitude of ecosystems services that benefit both humans and wildlife. The findings of this study will supply wetland managers with a better understanding of the functional strengths of different wetland habitats. This data will aid in ongoing restoration efforts by enabling managers to target certain functions and create more efficient and effective management plans.

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Haws, Emily S. "Ecology of culturable organisms at Rozel Point, Great Salt Lake, Utah /." Diss., CLICK HERE for online access, 2007. http://contentdm.lib.byu.edu/ETD/image/etd1741.pdf.

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Haws, Emily Sarah. "Ecology of Culturable Organisms at Rozel Point, Great Salt Lake, Utah." BYU ScholarsArchive, 2007. https://scholarsarchive.byu.edu/etd/857.

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The study of organisms from extreme environments is an emerging field of research with applications to multiple scientific areas. One of these extreme environments is Great Salt Lake (GSL), whose microbiology has yet to be extensively studied. This dynamic and unique environment offers an excellent opportunity to increase understanding of hypersaline ecology. Cultivation of microorganisms remains an important part of ecology research, as it is essential for understanding microbial physiology. We report here the culturing and characterization of isolates from Rozel Point, located on the northeastern shore of Great Salt Lake. This site was chosen because of the presence of petroleum seeps at Rozel Point and the extreme salinity of the North Arm of GSL. We hypothesize that culturing at GSL will reveal a diverse prokaryotic population, with both commonly isolated and novel organisms. We would predict that prokaryotes at GSL will share many features in common with other hypersaline microbial communities, but that given the distinctive properties of the site, there will be unique characteristics as well. Samples were taken from Rozel Point and cultured using direct plating, enrichment cultures, and dilution cultures with a variety of minimal and complex halophilic media. Fluorescence in situ hybridization (FISH) was used to examine abundance of cultured organisms in the environment. Culturing and characterization has revealed both isolates novel and previously uncultured, with many unique characteristics. FISH demonstrated that, unlike most environments, in GSL the dominant species are culturable. These results show the value of culturing in discovering new organisms and demonstrating diversity at the microbial level. Culturing of these organisms will allow for further research to be done on microbial processes that occur in this system and the unique properties of halophilic microbes.

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Frank, Maureen G. "Migratory Waterbird Ecology at a Critical Staging Area, Great Salt Lake, Utah." DigitalCommons@USU, 2016. https://digitalcommons.usu.edu/etd/4940.

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Despite the hemispheric importance of Great Salt Lake (GSL) as a staging area for migratory birds, little is known about the resources that GSL provides to these birds, or how changes to the GSL ecosystem might impact the avian community. Three species of migratory waterbirds that stage at GSL are Wilson’s phalaropes (Phalaropus tricolor), red-necked phalaropes (Phalaropus lobatus), and eared grebes (Podiceps nigricollis). My objective for this research was to study the impacts of prey availability on the staging ecology of these species. In Chapter 2, I examined the use of GSL habitats by both species of phalaropes. In the high-salinity bays of GSL, phalaropes were most strongly associated with shallow water. In the low-salinity bay, there were no strong associations between phalarope presence and particular habitat characteristics. In Chapter 3, I analyzed the behaviors of phalaropes relative to prey densities. Phalaropes commonly foraged in Carrington Bay, which had the highest densities of brine fly (Ephydridae) adults, and in Farmington Bay, which had high densities of benthic macroinvertebrates. Foraging behavior differed between Wilson’s and red-necked phalaropes, with Wilson’s phalaropes spinning more often than red-necked phalaropes. In Chapter 4, I examined interannual and nightly variations in eared grebe fall migration departures in relation to prey availability and environmental conditions. Eared grebes began migration relatively early when lake temperatures were relatively warm, densities of brine shrimp (Artemia franciscana) adults were high, and densities of brine shrimp cysts were low. The likelihood that eared grebes would depart on a given night was positively associated with the average barometric pressure 12 hours prior to sunset. The resources provided by GSL support substantial proportions of the staging populations of phalaropes and eared grebes. Management efforts should seek to maintain the habitats and resources needed by phalaropes and eared grebes at GSL. Future large-scale diversions of freshwater may threaten GSL’s suitability as a staging area for these birds.

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Delahoussaye, Leah M. "Eared Grebe Nesting Ecology and Chronology Along the Great Salt Lake, Utah." DigitalCommons@USU, 2019. https://digitalcommons.usu.edu/etd/7524.

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Eared Grebes (Podiceps nigricollis) are migratory birds that build their nests over water and in large groups called colonies. Their typical breeding range is in central southern Canada and northern United States; however, a previously uncertain number of Eared Grebes (grebes) also nest around the Great Salt Lake (GSL), Utah, at the southern edge of their breeding range. Little is known about the habitat requirements for grebe nesting colonies at such low latitudes and if they are different from colonies found elsewhere. My objectives for this research were to determine the status of the grebe nesting population as well as their habitat characteristics along the GSL in freshwater wetlands. I found over 4,280 grebe nests distributed among 35 colonies. Grebes built nests by mounding submerged aquatic vegetation (SAV) beginning the first week of June. The results from my habitat study show that grebes prefer to nest in areas with an average water depth of 48 cm, high invertebrate density, and abundant areas of floating SAV. Water depth and vegetation type at colony sites as well as timing of nesting and average number of eggs per nest of GSL colonies differed from colonies located at more northern latitudes. The differences in nesting could be attributed to the need to wait for SAV to grow and form mats on the water’s surface, or a need to wait for their food source to reach harvestable size. After grebes leave their nesting grounds, they stop at the GSL where they prepare for their final migration southward by consuming their fill of brine shrimp (Artemia franciscana). Brine shrimp are tiny invertebrates that are well-adapted to salty environments; they produce hard-walled eggs called cysts which are of great economic value and are commercially harvested from the GSL. I compared cyst viability, which is the percentage of cysts in a condition conducive to hatching, for cysts that had passed through the digestive tract of grebes and cysts samples obtained from the GSL. Only 30% of the cysts that had passed through grebes were viable, whereas 63% of cysts from the GSL were viable.

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Balirwa, John Stephen. "Lake Victoria wetlands and the ecology of the Nile Tilapia, Oreochromis niloticus Linné /." Rotterdam : A.A. Balkema, 1998. http://www.loc.gov/catdir/enhancements/fy0916/99496402-d.html.

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Cox, Robert R. Jr. "Postbreeding Ecology of Adult Male Northern Pintails and Cinnamon Teal Near Great Salt Lake, Utah." DigitalCommons@USU, 1993. https://digitalcommons.usu.edu/etd/5281.

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I studied nutrient reserves, digestive organs, molt intensity, diets , and seasonal changes in food resources available to postbreeding adult male Northern Pintails (Anas acuta) and Cinnamon Teal (Anas cyanoptera) in marshes near Great Salt Lake, Utah. Total lipid and protein reserves of Northern Pintails were lower during the flightless period than before or after. For Cinnamon Teal, total protein was lowest during the flightless period, and total lipid showed a similar trend. Total mineral did not differ among plumage classes in either species. Use of nutrient reserves in these species may be an endogenous rhythm in response to increased predation risk or unpredictable food resources while flightless. Digestive organ metrics of Northern Pintails generally were lower while flightless than before or after, apparently due to decreased dietary consumption. Cinnamon Teal digestive organ metrics changed little from preflightless to flightless stages, but generally increased while postflightless. Changes in Cinnamon Teal digestive organs may be related to increased dietary intake or increased dietary fiber consumption. Total molt intensity in these species was generally high before and during wing molt, and decreased during the postflightless period. Mathematically weighting total molt scores produced results similar to those obtained without weighting, but selection of body/feather regions is critical to obtaining unbiased estimates. Changes in relative availability of plant and animal foods during July and August were marked . Animal foods made up 96% of total foods measured in the study area during early July, but plant foods comprised 95% of available foods by late August. Changes in abundances of food resources are probably an important determinant of diet selection in postbreeding adult ducks and ducklings in marshes near Great Salt Lake. Diets of postbreeding adult male Northern Pintails and Cinnamon Teal did not differ between species, but did among flight classes. Changes in use of food items and in use of animal and plant foods were consistent with changes in relative abundances of food resources. Postbreeding adult males of these species apparently foraged opportunistically.

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Cranney, Chad R. "Control of Large Stands of Phragmites australis in Great Salt Lake, Utah Wetlands." DigitalCommons@USU, 2016. https://digitalcommons.usu.edu/etd/4988.

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Phragmites australis (hereafter Phragmites) often forms dense monocultures, which displace native plant communities and alter ecosystem functions and services. Managers tasked with controlling this plant need science-backed guidance on how to control Phragmites and restore native plant communities. This study took a large-scale approach - to better match the scale of actual restoration efforts - to compare two herbicides (glyphosate vs. imazapyr) and application timings (summer vs. fall). Five treatments were applied to 1.2 ha plots for three consecutive years: 1) summer glyphosate; 2) summer imazapyr; 3) fall glyphosate; 4) fall imazapyr; and 5) untreated control. Dead Phragmites following herbicide treatments was mowed in the first two years. Efficacy of treatments and the response of native plant communities were monitored for three years. We report that fall herbicide applications were superior to summer applications. No difference was found between the two herbicides in their ability to reduce Phragmites cover. Plant communities switched from emergent to open water communities and were limited by Phragmites litter and water depth. Although, some plant communities showed a slow trajectory towards one of the reference sites, cover of important native emergent plants did not increase until year three and remained below 10%. These results suggest that fall is the best time to apply herbicides for effective large-scale control of Phragmites. Active restoration (e.g. seeding) may be needed to gain back important native plant communities. Methods to reduce Phragmites litter after herbicide applications should be considered.

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Duthie, Troy, and mikewood@deakin edu au. "Nutrients in Pirron Yallock Creek, southwestern Victoria : paleolimnological and management considerations." Deakin University. School of Ecology and Environment, 2000. http://tux.lib.deakin.edu.au./adt-VDU/public/adt-VDU20060706.124148.

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The concentrations of various forms of nitrogen and phosphorus in the main stream and selected tributaries of Pirron Yallock Creek, southwestern Victoria were examined over a two-year period. Exceedingly high levels of both nutrients were found within a particular tributary, while generally high nutrient levels were observed throughout the catchment. The speciation results indicated that dairy effluent was the primary source of nutrients to Pirron Yallock Creek. A palaeolimnological study was undertaken to determine the impact of European settlement upon waterway nutrient concentrations within the region. The palaeolimnological study focused primarily on the diatom flora preserved within the sediments of nearby Lakes Corangamite and Bullen Merri. Lack of preservation of diatoms within the sediments of Lake Corangamite resulted in no water quality inferences for this lake. The preserved diatoms within Lake Bullen Merri suggested an increase in trophic status of this lake during the last 500 years. While a change in the diatom flora of Lake Bullen Merri was evident, it was not possible to differentiate the impact of European settlement upon nutrient status of this waterway from long-term trophic status change. In light of the particularly high nutrient concentrations observed in Pirron Yallock Creek, improved nutrient management strategies are proposed for the catchment. These strategies, which consider current nutrient management activities, are predominantly focussed on the dairy industry, which occupies the majority of the catchment.

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Books on the topic "Salt lake ecology Victoria"

Goldschmidt, Tijs. Darwin's dreampond: Drama in Lake Victoria. Cambridge, Mass: MIT Press, 1996.

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Darwin's dreampond: Drama in Lake Victoria. Cambridge, Mass: MIT Press, 1996.

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Zhongguo yan hu sheng tai xue. Beijing: Ke xue chu ban she, 2010.

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Jammes, Lois. El Salar de Tunupa (Salar de Uyuni). Santa Cruz de la Sierra, Bolivia: Armonía, 2000.

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Chalar, Jhonny Plata. El Salar de Uyuni. La Paz, Bolivia: Fondo Editorial de los Diputados, 2002.

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Saline lake ecosystems of the world. Dordrecht: Dr. W. Junk Publishers, 1986.

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Paul, Don S. 1997 Great Salt Lake eared grebe photo survey. Salt Lake City, Utah: Great Salt Lake Ecosystem Project, Utah Division of Wildlife Resources, 1999.

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International, Conference on Salt Lakes (7th 1999 Death Valley National Park Calif and Nev ). Saline lakes: Publications from the Seventh International Conference on Salt Lakes, held in Death Valley National Park, California, U.S.A., September 1999. Dordrecht: Kluwer Academic Publishers, 2001.

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Oglesby, Larry C. The Salton Sea: Geology, history, potential problems, politics, and possible futures of an unnatural desert salt lake. [Los Angeles, Calif.]: Southern California Academy of Sciences, 2005.

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Book chapters on the topic "Salt lake ecology Victoria"

Tumwebaze, R., A. Getabu, J. Bayona, D. Maclennan, and I. G. Cowx. "Fisheries of Lake Victoria: An Underwater Perspective." In Management and Ecology of Lake and Reservoir Fisheries, 70–83. Oxford, UK: Blackwell Publishing Ltd, 2007. http://dx.doi.org/10.1002/9780470995679.ch7.

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Crean, K., R. Abila, C. Lwenya, R. Omwega, F. Omwenga, A. Atai, J. Gonga, et al. "Unsustainable Tendencies and the Fisheries of Lake Victoria." In Management and Ecology of Lake and Reservoir Fisheries, 367–75. Oxford, UK: Blackwell Publishing Ltd, 2007. http://dx.doi.org/10.1002/9780470995679.ch30.

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Villanueva, M. C., and J. Moreau. "Recent Trends in the Lake Victoria Fisheries Assessed by Ecopath." In Management and Ecology of Lake and Reservoir Fisheries, 96–111. Oxford, UK: Blackwell Publishing Ltd, 2007. http://dx.doi.org/10.1002/9780470995679.ch9.

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Lehman, John T., Rose Mugidde, and Donna A. Lehman. "Lake Victoria Plankton Ecology: Mixing Depth and Climate-Driven Control of Lake Condition." In Environmental Change and Response in East African Lakes, 99–116. Dordrecht: Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-017-1437-2_8.

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Mkumbo, O. C., C. Ezekiel, Y. L. Budeba, and I. G. Cowx. "Analysis of Exploitation Patterns for Nile Perch, Lates Niloticus, in Lake Victoria." In Management and Ecology of Lake and Reservoir Fisheries, 84–95. Oxford, UK: Blackwell Publishing Ltd, 2007. http://dx.doi.org/10.1002/9780470995679.ch8.

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Mwebaza-Ndawula, Lucas. "Changes in relative abundance of zooplankton in northern Lake Victoria, East Africa." In Studies on the Ecology of Tropical Zooplankton, 259–64. Dordrecht: Springer Netherlands, 1994. http://dx.doi.org/10.1007/978-94-011-0884-3_19.

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Njiru, M., A. N. Othina, A. Getabu, D. Tweddle, and I. G. Cowx. "Is the Invasion of Water Hyacinth, Eichhornia Crassipes Solms (Mart.), a Blessing to Lake Victoria Fisheries?" In Management and Ecology of Lake and Reservoir Fisheries, 255–66. Oxford, UK: Blackwell Publishing Ltd, 2007. http://dx.doi.org/10.1002/9780470995679.ch21.

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Bulatov, V. I., I. N. Rotanova, and D. V. Chernykh. "Landscape ecology and cartographical analysis of natural salt complexes in the south west Siberia Basins of Lake Chany and Lake Kulundinskoye." In Sabkha Ecosystems, 233–47. Dordrecht: Springer Netherlands, 2006. http://dx.doi.org/10.1007/978-1-4020-5072-5_19.

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Kulshreshtha, Seema, B. K. Sharma, and Shailja Sharma. "The Ramsar Sites of Rajasthan: Ecology and Conservation of Sambhar Salt Lake, Jaipur and Keoladeo National Park, Bharatpur." In Faunal Heritage of Rajasthan, India, 173–219. Cham: Springer International Publishing, 2013. http://dx.doi.org/10.1007/978-3-319-01345-9_8.

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Bugenyi, F. W. B., and K. M. Magumba. "The Present Physicochemical Ecology of Lake Victoria, Uganda." In The Limnology, Climatology and Paleoclimatology of the East African Lakes, 141–54. Routledge, 2019. http://dx.doi.org/10.1201/9780203748978-7.

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Academic literature on the topic 'Salt lake ecology Victoria'

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Journal articles on the topic "Salt lake ecology Victoria"

Dissertations / Theses on the topic "Salt lake ecology Victoria"

Books on the topic "Salt lake ecology Victoria"

Book chapters on the topic "Salt lake ecology Victoria"