Journal: Fisheries Management and Ecology
Location: Salt River watershed, Wyoming and Idaho, USA

Adult cutthroat trout in the Salt River watershed were tracked from September-October 2005 until August 2006 using implanted radio transmitters. The fish were caught in the main river stem, spent October-March largely sedentery in pools, started to move more in April and then increased May-June for the spawning season, when 44% of the 43 fish remained in Salt River in April 2006, 37% moved to mountain streams, and 19% into spring streams, almost all preferring streams with manmade pools and gravel-cobble riffles. The fish didn’t use streams that dewatered in the summer or were blocked by manmade barriers.

Cutthroat Trout – Oncorhynchus clarkii

Sanderson TB, Hubert WA, 2009. “Movements by adult cutthroat trout in a lotic system: implications for watershed-scale management” Fisheries Management and Ecology, DOI: 10.1111/j.1365-2400.2009.00669.x

Affiliations: USGS, Wyoming Cooperative Fish and Wildlife Research Unit.

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Journal: African Journal of Ecology
Location: Marsabit Protected Area, Kenya

The distribution of 9 satellite-collared elephants (4 females, 5 bulls) around a volcanic shield with a forestsavanna habitat mosaic in Marsabit National Park and Reserve, Kenya, was influenced most heavily by proximity to drinking water (24% – 13% for permanent water bodies and 11% for seasonal rivers). Elevation contributed 15% to the variation in distribution, but this is probably because vegetation structure is very dependent on elevation – shrubland contributed 10%, and forest 9%, with elephants preferring high forested elevations in the dry season and low shrubland in the wet season. Human proximity was also significant: distance from human settlements contributed 8% and distance from minor roads 7%. 27% of the variation was not significantly correlated to anything in particular.

Ngene SM, Skidmore AK, Van Gils H, Douglas-Hamilton I, Omondi P, 2009. “Elephant distribution around a volcanic shield dominated by a mosaic of forest and savanna (Marsabit, Kenya)” African Journal of Ecology 47(2): 234-245, doi: 10.1111/j.1365-2028.2008.01018.x

Affiliations: Kenya Wildlife Service; International Institute for Geo-Information Science and Earth Observation (ITC); Save the Elephant Trust.

Journal: Animal Conservation
Location: Mary River?, Australia

The length of each underwater dive by hatchlings of the endangered Mary River Turtle was reduced by 51% in in hypoxic (depleted oxygen) water, as one would find at a dam, indicating there was insufficient oxygen for the turtles to respire underwater for as long, which in turn may cause them to be preyed upon more often. Evidence suggests that the turtles do not become accilimatised to hypoxia.

Mary River Turtle – Elusor macrurus

Clark NJ, Gordos MA, Franklin CE, 2009. “Implications of river damming: the influence of aquatic hypoxia on the diving physiology and behaviour of the endangered Mary River turtle.” Animal Conservation, 12(2): 147-154, DOI: 10.1111/j.1469-1795.2009.00234.x
Affiliations: The University of Queensland, NSW DPI (New South Wales Department of Primary Industries