William L. Kirk scite author profile

William L. Kirk

5Publications

43Citation Statements Received

15Citation Statements Given

How they've been cited

114

How they cite others

Affiliations

Los Alamos National Laboratory, Southern Illinois University Carbondale, Texas A&M University

Publications

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Food Intake of the Largemouth Bass

Lewis

Heidinger

Kirk

et al. 1974

Transactions of the American Fisheries Society

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During 18 months of electrofishing a sample of 991 adult largemouth bass (Micropterus salmoides) was taken from Crab Orchard Lake. The stomach contents were removed in the :field with a gastroscope. Gizzard shad (Dorosoma cepedianum) constituted the principal forage fish. Approximately 50% of the bass collected had empty stomachs. As the size of bass increased, the food intake as a percent of body weight decreased. Ninety percent of the bass stomachs contained one food item. When more than one food item was found, they were usually in the same stage of digestion. It is suggested that the high percent of empty stomachs was related to hunting success, or that the onset of the feeding stimulus in association with rate of digestion might result in a periodicity of :feeding that involves a high percent of empty stomachs. A higher relative intake of food by small bass was postulated to be a resttit of the bass's typically consuming only one fish. Inasmuch as the forage fish were relatively uniform in size, one fish constituted a large meal for a small bass but not for a large bass. Numerous studies have considered the feed-

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The Effects of Hypoxia on Certain Blood and Tissue Electrolytes of Channel Catfish, Ictalurus punctatus (Rafinesque)

Kirk

1974

Transactions of the American Fisheries Society

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Channel catfish, Ictalurus punctatus (Rafinesque) exhibited changes in levels of muscle and blood electrolytes during recovery from short-term hypoxia. Ten minutes of confinement in water having zero rag/liter oxygen resulted in an acidosis characterized after 1 hr of recovery by elevated blood lactate, decreased blood pH, and an increase in plasma osmolarity and hematocrit. Muscle water content was increased at this time. Later changes in these parameters appeared to be influenced by season or temperature. Plasma osmolarity dropped below control levels in June and remained depressed after 36 hr of recovery. In August plasma osmolarity fluctuated at levels above control values and had not returned to normal after 48 hr. These data indicate that electrolyte imbalance persists for many hours after blood lactate has declined to control levels and this imbalance may limit the fish's ability to tolerate further stress. 593 TRANS. AMER. FISH. SOC., 1974, NO. 3

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Propagation Velocities and Voltage Magnitudes in Local Segments of Dog Myocardium

Selvester

Kirk

Pearson

1970

Circulation Research

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Propagation velocities and differential voltages of the electromotive surface in the left ventricle were measured in dogs by multipoint bipolar intramyocardial electrodes. The average velocity of propagation in the inner 4 mm of the ventricular wall of dogs was 2.0 mm/msec, which is considerably greater than that in the middle (0.70 mm/msec) or the outer 4 mm (0.40 mm/msec). The average voltage was less in the inner levels of the ventricular wall than in the outer, but significantly different from zero. This fact indicates a definite but lesser contribution per unit volume than from the outer levels. The propagation of the electromotive surface through the ventricular wall was consistently from endocardium to epicardium with no significant areas propagated in the reverse direction.These data disagree with the hypothesis that certain levels in the wall of the heart and certain regions of the heart are electrocardiographically silent. In dogs, and to a greater degree in humans, small infarcts anywhere in the heart can be expected to produce significant and discernible changes in surface ECGs. The task remains to refine and validate criteria for the diagnosis of infarct in these areas. When viewed from within the myocardium, the waveforms observed in bipolar intramyocardial electrodes are inconsistent with the dipole layer hypothesis as a model of the electromotive surface of ventricular depolarization in the heart. This investigation was supported in part by U. S. Public Health Service Research Grants HE 09123, HE 10722, and HE 07888 from the National Heart and Lung Institute. ADDITIONAL KEY WORDSReceived October 6, 1967. Accepted for publication August 17, 1970. based embodied the following assumptions: (a) the heart was a distributed set of fixed locus dipoles; (b) the volume conductor was resistive, isotropic, and contained internal inhomogeneities (lungs) and was limited by a normal male adult torso external boundary; (c) the ventricular activation sequence in humans was that reported by Durrer (5) and similar to that recorded in dogs by Scher (6); (d) the wave of depolarization through the ventricles was a current dipole layer; (e) the variation in the velocity of propagation of the wave of depolarization from endocardium to epicardium in the ventricular wall was so minimal that it could be ignored; (f) the electromotive source distribution and strength were always uniform over the entire propagation front.

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The design of a nuclear rocket engine for advanced unmanned missions

Durham

Kirk

1972

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A Container for the Processing of Delicate Organisms for Scanning or Transmission Electron Microscopy

Postek¹,

Kirk²,

Cox³

1974

Transactions of the American Microscopical Society

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William L. Kirk

Food Intake of the Largemouth Bass

The Effects of Hypoxia on Certain Blood and Tissue Electrolytes of Channel Catfish, Ictalurus punctatus (Rafinesque)

Propagation Velocities and Voltage Magnitudes in Local Segments of Dog Myocardium

The design of a nuclear rocket engine for advanced unmanned missions

A Container for the Processing of Delicate Organisms for Scanning or Transmission Electron Microscopy

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