John Bussey scite author profile

John Bussey

4Publications

69Citation Statements Received

81Citation Statements Given

How they've been cited

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163

Affiliations

Washington State University, University of Georgia, National Science Foundation

Publications

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Oral Regeneration in the Ciliate Stentor coeruleus: A Scanning and Transmission Electron Optical Study

Paulin

Bussey

1971

The Journal of Protozoology

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SYNOPSIS. Elaboration of ciliated feeding organelles in the protozoon Stentor coeruleus was reinvestigated for the first time by scanning electron microscopy which gives the most realistic 3‐dimensional images. Parallel transmission EM studies of synchronized regenerating stentors gave further ultrastructural details of stomatogenesis, while also confirming the expectation that in the structure of its kineties this now classical experimental object does not differ from other species of Stentor previously studied. Within 2 hr after the stimulus to regeneration, several generations of new kinetosomes for the oral primordium are produced, first in association with kinetosomes of kineties at the restricted primordium site. These kinetosomes rapidly sprout membranellar cilia as well as subpellicular microtubules but are still randomly oriented (anarchic field). The forming membranellar band increases from its center‐line to both sides while it grows in length. Young cilia are blunt‐ended. Recession of the early anlage occurs without rupture of the pellicle; soon apparent is the clear border stripe of unknown function along the right side of the membranellar band. Instantaneous fixation of beating cilia in early primordia revealed random beating, with coordination and presumably membranellar organization not yet attained. In late anlagen there are 2 types of metachronal rhythm: transversely from cilium to cilium across any given membranelle, as well as the easily observable serial beating of membranelles along the entire band. A single file of cilia leads the subsequent cytostomal invagination. The posterior end of the membranellar band then follows to line the cytopharynx.

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Process optimization of caustic scrubber and iodine-129 immobilization in sodalite-based waste forms

et al. 2022

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Microstructural examination of interactions between chromia‐based refractory and nuclear glass in a melter

2022

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This study shows the effects of nuclear waste glass production on Monofrax K-3 refractory corrosion. A continuously fed research-scale melter containing an Fe-and Ni-rich simulated nuclear waste feed with borosilicate glass-forming chemicals was cyclically melted at 1150 • C and idled at 1050 • C for a total of 11 weeks. Chemical maps using scanning electron microscopy show the interactions between the quenched melt and the refractory. Nanoscale X-ray-computed tomography was used for a three-dimensional visualization of certain parts of the interface. Unreacted K-3 consists of primarily corundum (Al,Cr) 2 O 3 and spinel (Fe 2+ ,Mg)(Al,Cr) 2 O 4 interlocking crystalline phases. Some of the Cr from the refractory interacts with the Ni and Fe from the melt to form a reaction layer comprising (Ni,Fe 2+ )(Cr,Fe 3+ ) 2 O 4 spinel crystals. Simultaneously, melt components (Na,Si) infiltrate into the refractory. This interaction proceeds at the expense of the integrity of the refractory structure. Intact refractory grains (e.g., (Al,Cr) 2 O 3 ) as well as the reaction layer itself can lose mechanical integrity and spall off into the melt, especially near the top of the melter. As the reaction layer can be a protective boundary for the refractory against further melt infiltration, a reduction in the reaction layer thickness allows an increase in refractory corrosion.

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Examining phase separation and crystallization in glasses with X-ray nano-computed tomography

Bussey¹,

Weber²,

Smith-Gray³

et al. 2023

Journal of Non-Crystalline Solids

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John Bussey

Oral Regeneration in the Ciliate Stentor coeruleus: A Scanning and Transmission Electron Optical Study

Process optimization of caustic scrubber and iodine-129 immobilization in sodalite-based waste forms

Microstructural examination of interactions between chromia‐based refractory and nuclear glass in a melter

Examining phase separation and crystallization in glasses with X-ray nano-computed tomography

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