Aaron Slick from Punkin Crick,

Mode of access: Internet.

The Wollopors.

Mode of access: Internet.

The "Socialism" of New Zealand; by Robert H. Hutchinson.

Mode of access: Internet.

Fairy and folk tales of the Irish peasantry /

Variant issue: series title on half title; errata slip inserted at p. [ix].

Essentials of physiology arranged in the form of questions and answers. Prepared especially for students of medicine.

Mode of access: Internet.

Experiments on the digestibility of prickly pear by cattle /

"May 28, 1908."

Grain drying and storage studies in southwest Georgia /

Includes bibliographical references.

Report and appendix...

Mode of access: Internet.

Lectures on the sacred poetry of the Hebrews.

"A brief confutation of Bishop Hare's system of Hebrew metre": p. [499]-504.

The history of Rome /

vols. 1-2 trans. by J. C. Hare & C. Thirlwall, vol. 3 trans. by W. Smith & L. Schmitz, vols. 4-5 trans. by L. Schmitz.

Professor Schroeder van der Kolk on the minute structure and functions of the spinal cord and medulla oblongata : and on the proximate cause and rational treatment of epilepsy /

Translation of two memoirs: Anatomisch physiologisch onderzoek over het fijnere zamenstel en de werking van het ruggemerg, published 1854, and Over het fijnere zamenstel en de werking van het verlangde ruggemerg en over de naaste oorzaak van epilepsie en hare rationele behandeling, published 1858.

The story of my life,

Mode of access: Internet.

Epilepsy: its pathology and treatment

Mode of access: Internet.

Predator species identification from saliva at kill sites with limited remains

Thesis (Master's)--University of Washington, 2016-06

The fate of Lyngbya majuscula toxins in three potential consumers

Blooms of Lyngbya majuscula have been reported with increasing frequency and severity in the last decade in Moreton Bay, Australia. A number of grazers have been observed feeding upon this toxic cyanobacterium. Differences in sequestration of toxic compounds from L. majuscula were investigated in two anaspideans, Stylocheilus striatus, Bursatella leachii, and the cephalaspidean Diniatys dentifer. Species fed a monospecific diet of L. majuscula had different toxin distribution in their tissues and excretions. A high concentration of lyngbyatoxin-a was observed in the body of S. striatus (3.94 mg/kg(-1)) compared to bodily secretions (ink 0.12 mg/kg- 1; fecal matter 0.56 mg/kg(-1); eggs 0.05 mg/kg(-1)). In contrast, B. leachii secreted greater concentrations of lyngbyatoxin-a (ink 5.41 mg/kg(-1); fecal matter 6.71 mg/kg(-1)) than that stored in the body (2.24 mg/kg(-1)). The major internal repository of lyngbyatoxin-a and debromoaplysiatoxin was the digestive gland for both S. striatus (6.31 +/- 0.31 mg/kg(-1)) and B. leachii (156.39 +/- 46.92 mg/kg(-1)). D. dentifer showed high variability in the distribution of sequestered compounds. Lyngbyatoxin-a was detected in the digestive gland (3.56 +/- 3.56 mg/kg(-1)) but not in the head and foot, while debromoaplysiatoxin was detected in the head and foot (133.73 +/- 129.82 mg/kg(-1)) but not in the digestive gland. The concentrations of sequestered secondary metabolites in these animals did not correspond to the concentrations found in L. majuscula used as food for these experiments, suggesting it may have been from previous dietary exposure. Trophic transfer of debromoaplysiatoxin from L. majuscula into S. striatus is well established; however, a lack of knowledge exists for other grazers. The high levels of secondary metabolites observed in both the anaspidean and the cephalapsidean species suggest that these toxins may bioaccumulate through marine food chains.