Amphipod Distribution in High Gradient S treams of an Illinois Nature Preserve

Laaker, Angela Lynn

20 February 2016

<p> Amphipods are found in large numbers from the top elevation at the Nature Institute (TNI) in Madison County, IL to lower areas of the stream that flow into the Mississippi River. Amphipod success depends greatly on their ability to survive dynamic streams with changing flow and physical conditions. It would be thought that by the end of spring rains, all aquatic organisms would be washed downstream. After observations of persistence of amphipods at the highest reaches of a small fishless stream that experiences relatively severe flooding, the present study sought to determine if a relationship existed between stream elevation and microhabitat type with respect to amphipod abundance. Do certain microhabitats serve as systematically better refuges in flooding streams? This study also sought to determine if there was a relationship between amphipod size and stream elevation. Do larger or smaller amphipods persists better at different stream elevations? Two surveys were conducted in July 2015 with sampling at 8 different elevation zones which included 5 microhabitats. One survey was conducted in August 2015 at 10 different elevation zones (8 of which were repeat areas from July), with samples taken from various elevations along the stream from 5 microhabitats. A total of 2,616 amphipods (Gammarus pseudolimnaeus) were collected over the two-month time period, collected, counted and body length measured. Results did not show a relationship between amphipod body length and stream elevation, nor was there a relationship between amphipod abundance and stream elevation.</p>

Zoology

11 published papers on the classification of the British Brachiopod sub-family Productinae

Muir-Wood, Helen M.

January 1935

No description available.

Zoology

21 published articles on zoology

Atkins, D.

January 1939

No description available.

Zoology

19 published papers on British chytrids

Lund, Hilda M.

January 1955

No description available.

Zoology

Reprints from scientific periodicals

Green, J.

January 1968

No description available.

Zoology

Energetically Costly Mate Sampling and Female Zebra Finch Choice

Crabtree, Timothy Ryan

01 January 2004

No description available.

Zoology

Variation between Sparrows in the Ability to Extract Buried Seed

Whalen, David Michael

01 January 1998

No description available.

Zoology

Aspects of the Breeding and Foraging Biology of American Oystercatchers at Fisherman Island National Wildlife Refuge, Virginia

anderson, Robert L.

01 January 1988

No description available.

Zoology

Sexual Dimorphism, Diet, and Body Condition of Rusty Blackbirds Wintering in Virginia

McGann, andrew John

01 January 2012

No description available.

Zoology

The effects of daily fluctuating temperatures and dimethylnaphthalene contaminated food on the estuarine grass shrimp, palaemonetes pugio

Dillon, Thomas Mitchell

01 January 1981

The physiological effects of a natural perturbation (fluctuating. temperatures) and a petroleum-induced perturbation. (dimethylnaphthalene-contaminated food) on the grass shrimp. Palaemonetes pugio were compared. The resistance of shrimp to. environmental challenge, oxygen consumption rates (Vo(,2)) and(' ). several physiological indices of stress were determined after a 32. day exposure to fluctuating temperatures (FT) (18-22�C) and/or dimethylnaphthalene (DMN)-contaminated food (0.24 (mu)g DMN/g wet wt) and again after a 16 day recovery period of stable temperatures (20�C) and uncontaminated food. Both FT and DMN-contaminated food reduced survival to the challenge of hypoxia + reduced salinity. FT were quantitatively more stressful than either stable temperatures or DMN-contaminated food. After the recovery period, FT did not affect survival to hypoxia, while shrimp, which had ingested DMN-contaminated food, exhibited enhanced survival to hypoxia. Ingestion of DMN-contaminated food for 32 days resulted in elevated Vo(,2)(' )in shrimp exposed to declining oxygen concentrations. After the 32 day exposure period, FT had no significant effect on(' )Vo(,2) at 15�C, 20�C and 25�C, tissue Vo(,2),(' )Vo(,2) in declining oxygen and hemolymph copper concentrations. After the 16 day recovery period, shrimp from the FT regime exhibited depressed(' )Vo(,2) when exposed to 25�C but not to 15�C. These depressed respiratory rates were offset by the stimulatory effect of DMN-contaminated food. The ratio of oxygen consumed to nitrogen excreted wwas elevated after the exposure and recovery periods in shrimp exposed to both FT and DMN-contaminated food at the same time. Water flux rates were elevated by FT after the exposure and recovery periods but not when DMN-contaminated food was also ingested. Both water flux rates and the ratio of oxygen consumed to nitrogen excreted were elevated in all shrimp after the recovery period relative to levels observed after the exposure period. After the exposure period, FT induced elevated hemolymph acid phosphatase activities in shrimp exposed to hypoxia. After the recovery period, hypoxia induced elevated hemolymph acid phosphatase activities in shrimp which had ingested nothing but uncontaminated food relative to those ingesting DMN-contaminated food.

Zoology