I am a veterinarian and Interdisciplinary Studies Doctoral Candidate with a particular interest in wildlife-human interfaces and health. My work serves to improve the operationalization of One Health action in ways that provide co-benefits to animals, wildlife and the people who live around them for generations to come.
A presentaiton to Global Health practitioners with the Canadian Coalition for Global Health Pract... more A presentaiton to Global Health practitioners with the Canadian Coalition for Global Health Practitioners. Part of a larger learning module on root causes of zoonotic spillover events: https://bccoalitioninstitute.com/module-7-connecting-multispecies-to-human-equity/
A presentation made to secondary students from the Institute of Global Solutions, BC discussing r... more A presentation made to secondary students from the Institute of Global Solutions, BC discussing root causes of zoonotic disease spillover from an health equity lens
In this chapter, we address what is currently thought to be the environmental origins (and conseq... more In this chapter, we address what is currently thought to be the environmental origins (and consequences) of COVID-19, from the “wet markets” of Wuhan, China, to the clearing skies over major cities around the world, from the vastly unequal realities of urban (and rural) spread and containment to the reconfiguration of urban space, climate justice, and energy futures amid efforts to “save” or “reconfigure” the economy. In addition to telling the “front story” of the pandemic’s emergence and impact as it pertains to what is commonly referred to as “the environment,” we draw on several key lenses for understanding the “backstory.” We close with reflections on what many are calling a “fork in the road”—contested decisions being taken about how far to “bounce back” to “normal” versus “bouncing forward” to a more socially and ecologically sustainable future.
Avian influenza virus (AIV) was studied in ring-billed gulls (Larus delawarensis) in one breeding... more Avian influenza virus (AIV) was studied in ring-billed gulls (Larus delawarensis) in one breeding colony on Lake Erie in 2000, and two on Lake Ontario in both 2000 and 2004. Antibodies to H13 AIV were detected in 92% of adults in 2000 and 82% in 2004. Antibody prevalence in 3-wk-old chicks was 5%-30% (overall 15%) in 2000 and 21% and 76% (overall 48%) in 2004. In 5-wk-old chicks, antibody prevalence was 23%-75% (overall 53%) in 2000 and 53% and 79% (overall 66%) in 2004. Geometric mean antibody titers at 3 and 5 wk did not differ in 2000, but increased significantly at one colony in 2004. In 2000, overall prevalence of AIV isolation from cloaca in embryonated chicken eggs was 32% (3 wk old), 13% (5 wk old), and 0 (adults), but AIV was also isolated from kidney and lung in a high proportion of tissues cultured from 3-wk-old birds in one colony. Isolates from cloaca were characterized as subtype H13 by serology; all 15 tested for neuraminidase were H13N6. However, three AIV detections considered on the basis of nucleotide sequence to be subtype H16 were among the 28 detected retrospectively by PCR in archived cloacal swabs; the remainder were subtype H13. Outcome of virus isolation was not related to presence of antibody titers in chicks. The presence of antibody to AIV in chicks was associated significantly with inflammation in heart, kidney, pancreas, and liver. AIV was not isolated in 2004. AIV infected chicks annually within the first 3 wk of life, ultimately infecting the majority of birds in most colonies, but did not appear to cause clinical disease.
Avian influenza virus (AIV) was studied in ring-billed gulls (Larus delawarensis) in one breeding... more Avian influenza virus (AIV) was studied in ring-billed gulls (Larus delawarensis) in one breeding colony on Lake Erie in 2000, and two on Lake Ontario in both 2000 and 2004. Antibodies to H13 AIV were detected in 92% of adults in 2000 and 82% in 2004. Antibody prevalence in 3-wk-old chicks was 5%-30% (overall 15%) in 2000 and 21% and 76% (overall 48%) in 2004. In 5-wk-old chicks, antibody prevalence was 23%-75% (overall 53%) in 2000 and 53% and 79% (overall 66%) in 2004. Geometric mean antibody titers at 3 and 5 wk did not differ in 2000, but increased significantly at one colony in 2004. In 2000, overall prevalence of AIV isolation from cloaca in embryonated chicken eggs was 32% (3 wk old), 13% (5 wk old), and 0 (adults), but AIV was also isolated from kidney and lung in a high proportion of tissues cultured from 3-wk-old birds in one colony. Isolates from cloaca were characterized as subtype H13 by serology; all 15 tested for neuraminidase were H13N6. However, three AIV detections considered on the basis of nucleotide sequence to be subtype H16 were among the 28 detected retrospectively by PCR in archived cloacal swabs; the remainder were subtype H13. Outcome of virus isolation was not related to presence of antibody titers in chicks. The presence of antibody to AIV in chicks was associated significantly with inflammation in heart, kidney, pancreas, and liver. AIV was not isolated in 2004. AIV infected chicks annually within the first 3 wk of life, ultimately infecting the majority of birds in most colonies, but did not appear to cause clinical disease.
A presentaiton to Global Health practitioners with the Canadian Coalition for Global Health Pract... more A presentaiton to Global Health practitioners with the Canadian Coalition for Global Health Practitioners. Part of a larger learning module on root causes of zoonotic spillover events: https://bccoalitioninstitute.com/module-7-connecting-multispecies-to-human-equity/
A presentation made to secondary students from the Institute of Global Solutions, BC discussing r... more A presentation made to secondary students from the Institute of Global Solutions, BC discussing root causes of zoonotic disease spillover from an health equity lens
In this chapter, we address what is currently thought to be the environmental origins (and conseq... more In this chapter, we address what is currently thought to be the environmental origins (and consequences) of COVID-19, from the “wet markets” of Wuhan, China, to the clearing skies over major cities around the world, from the vastly unequal realities of urban (and rural) spread and containment to the reconfiguration of urban space, climate justice, and energy futures amid efforts to “save” or “reconfigure” the economy. In addition to telling the “front story” of the pandemic’s emergence and impact as it pertains to what is commonly referred to as “the environment,” we draw on several key lenses for understanding the “backstory.” We close with reflections on what many are calling a “fork in the road”—contested decisions being taken about how far to “bounce back” to “normal” versus “bouncing forward” to a more socially and ecologically sustainable future.
Avian influenza virus (AIV) was studied in ring-billed gulls (Larus delawarensis) in one breeding... more Avian influenza virus (AIV) was studied in ring-billed gulls (Larus delawarensis) in one breeding colony on Lake Erie in 2000, and two on Lake Ontario in both 2000 and 2004. Antibodies to H13 AIV were detected in 92% of adults in 2000 and 82% in 2004. Antibody prevalence in 3-wk-old chicks was 5%-30% (overall 15%) in 2000 and 21% and 76% (overall 48%) in 2004. In 5-wk-old chicks, antibody prevalence was 23%-75% (overall 53%) in 2000 and 53% and 79% (overall 66%) in 2004. Geometric mean antibody titers at 3 and 5 wk did not differ in 2000, but increased significantly at one colony in 2004. In 2000, overall prevalence of AIV isolation from cloaca in embryonated chicken eggs was 32% (3 wk old), 13% (5 wk old), and 0 (adults), but AIV was also isolated from kidney and lung in a high proportion of tissues cultured from 3-wk-old birds in one colony. Isolates from cloaca were characterized as subtype H13 by serology; all 15 tested for neuraminidase were H13N6. However, three AIV detections considered on the basis of nucleotide sequence to be subtype H16 were among the 28 detected retrospectively by PCR in archived cloacal swabs; the remainder were subtype H13. Outcome of virus isolation was not related to presence of antibody titers in chicks. The presence of antibody to AIV in chicks was associated significantly with inflammation in heart, kidney, pancreas, and liver. AIV was not isolated in 2004. AIV infected chicks annually within the first 3 wk of life, ultimately infecting the majority of birds in most colonies, but did not appear to cause clinical disease.
Avian influenza virus (AIV) was studied in ring-billed gulls (Larus delawarensis) in one breeding... more Avian influenza virus (AIV) was studied in ring-billed gulls (Larus delawarensis) in one breeding colony on Lake Erie in 2000, and two on Lake Ontario in both 2000 and 2004. Antibodies to H13 AIV were detected in 92% of adults in 2000 and 82% in 2004. Antibody prevalence in 3-wk-old chicks was 5%-30% (overall 15%) in 2000 and 21% and 76% (overall 48%) in 2004. In 5-wk-old chicks, antibody prevalence was 23%-75% (overall 53%) in 2000 and 53% and 79% (overall 66%) in 2004. Geometric mean antibody titers at 3 and 5 wk did not differ in 2000, but increased significantly at one colony in 2004. In 2000, overall prevalence of AIV isolation from cloaca in embryonated chicken eggs was 32% (3 wk old), 13% (5 wk old), and 0 (adults), but AIV was also isolated from kidney and lung in a high proportion of tissues cultured from 3-wk-old birds in one colony. Isolates from cloaca were characterized as subtype H13 by serology; all 15 tested for neuraminidase were H13N6. However, three AIV detections considered on the basis of nucleotide sequence to be subtype H16 were among the 28 detected retrospectively by PCR in archived cloacal swabs; the remainder were subtype H13. Outcome of virus isolation was not related to presence of antibody titers in chicks. The presence of antibody to AIV in chicks was associated significantly with inflammation in heart, kidney, pancreas, and liver. AIV was not isolated in 2004. AIV infected chicks annually within the first 3 wk of life, ultimately infecting the majority of birds in most colonies, but did not appear to cause clinical disease.
Uploads
Videos by Mira Ziolo
Papers by Mira Ziolo