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Urban building i kvarteret Domherren : Life aquaticKörberg Turhagen, Frida January 2012 (has links)
No description available.
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Littoral zone structure, energy mobilization and benthic food webs in oligotrophic northern temperate lakesDevlin, Shawn P. 20 April 2011 (has links)
No description available.
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Motor Control during Amphibious Locomotion Changes Muscle Function in Polypterus SenegalusLiang, Lisha 25 November 2021 (has links)
Polypterus is an extant fish that is used as a model to understand the fin-to-limb evolutionary transition. Polypterus exhibits muscle phenotypes relevant to this transition. In particular, plastic changes in bone and muscle in Polypterus have been shown in response to spending time in a terrestrial environment. Muscle fiber changes are usually associated with changes in the performance demand placed on those muscles. We hypothesize that muscle fibers are recruited differently between aquatic and terrestrial environments to explain the change in fiber type. How pectoral fin muscle activity changes between swimming and walking is mostly unknown. Hence, this study utilizes electromyography (EMG) and high-speed videography to understand how the muscle activity pattern and function of all four pectoral fin muscle groups change during swimming and walking in aquatically raised fish. In this experiment, aquatically raised fish were placed in water and on land to observe changes in fin muscle function between behaviours. This study aims to understand how the instantaneous changes in the behaviour of the fish, particularly in the pectoral fin, could explain the muscle plasticity found in previous research. This study showed that fish adduct their pectoral fins much faster with increased muscle effort during walking compared to swimming. The adductor muscle also had the biggest change in function, activating for the majority of the fin-stroke cycle and therefore undergoing eccentric contraction. The increase in muscle effort seen in this study is consistent with the muscle fiber transition seen in fish that spend long periods on land, and the dramatic change of EMG magnitudes found in the adductor muscle may explain muscle damage previously found following acute walking.
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The Impact of Woody Debris on Bank Stability and Macroinvertebrates in IntermittentHeadwater Streams within the Western Allegheny PlateauRussell, Gabrielle Nicole 13 July 2018 (has links)
No description available.
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