Terrestrial Ecotoxicology and Disease Research Facility Core Technology Team
About the Research
The Terrestrial Ecotoxicology and Disease Research Facility Core Technology Team (CTT) as part of the Environmental Health Program provides an integrated mechanism for conducting controlled exposure studies on wildlife at varied spatiotemporal scales.
The Terrestrial Ecotoxicology and Disease Research CTT has three main research mechanisms:
- Captive bird colonies that can be used as models for various species of wild birds to address specific toxicological, disease or ecological hypotheses or questions;
- A variety of facilities to conduct these studies; and
- Laboratories that support this research by providing data on various non-apical genomic-molecular and biochemical indicators.
Bird Colonies
- The CTT research colonies are available for use in various types of toxicological, ecological and disease studies, including short-term exposures, reproductive and multigenerational studies, immune-challenge and disease resistance research.
- Current species include American Kestrel, Japanese quail (an avian model species for endocrine research) and several seaduck species. All of these species reproduce in captivity and are well-accepted research models used in wildlife toxicology.
Facilites
- Raptor facility which maintains kestrels in a series of large flight pens that have enabled the colony to reproduce and remain self-sustaining for over 50 years
- Smaller pens used for more controlled exposure studies, such as PFAS impacts on avian reproduction and physiological responses to pesticides
- Seaduck facility which include large pens with flow through water systems that provide clean filtered water to the ducks in a covered, outdoor setting
- Indoor diving tanks that serve as experimental chambers in which the birds’ diving behavior can be studied under various environmental conditions
- Mesocosms, each with its own pump house and wetland/marsh area that provides habitat for an entire food chain from invertebrates to amphibians, to birds
- Indoor experimental animal facilities, which permit temperature-controlled studies to be conducted
- Egg incubators can be used to hatch bird eggs whether collected from our own colonies or brought in from the field
- Two environmental chambers that provide for controlled temperature and light conditions used for reptile and amphibian exposures
Laboratories for Biomarker Analyses
- Fully equipped laboratory that provides gene expression, microbiome, antibiotic resistance and virulome analyses, along with other molecular methods
- Immune and chromogenic assays to analyze various biochemical indicators including those for oxidative stress, steroid and thyroid hormones
- Blood clotting assays and analyze for various response endpoints from both arms of the immune system.
Environmental Health Integrated Science Team Collaborators
-
Food Resources Lifecycle Integrated Science Team
The team studies the movement of toxicants and pathogens that could originate from the growing, raising, and processing/manufacturing of plant and animal products through the environment where exposure can occur. This information is used to understand if there are adverse effects upon exposure and to develop decision tools to protect health.Energy Integrated Science Team
The Energy Lifecycle Integrated Science Team focuses on the potential for contaminant exposures in the environment that might originate from energy resource activities including, extraction, production, transportation, storage, extraction, waste management and restoration. Perceived health risks to humans and other organisms will be distinguished from actual risks, if any. If actual risks are...
Data related to the Terrestrial Ecotoxicology and Disease Research Facility CTT can be found below.
Hepatic gene expression transcript counts in liver samples of American kestrels
Toxicological responses to sublethal anticoagulant rodenticide exposure in free-flying red-tailed hawks
Characterizing microbiota, virulome, and resistome of wild prairie grouse in crop producing and uncultivated areas of Nebraska
Laboratory analysis assessing immune response after flame retardant exposure in American kestrels, Falco sparverius, through 21 days post-hatch
Discerning innate immunity in American kestrels, Falco sparverius, through 21 days post-hatch
Physiological and Endocrine Responses of Hatchling American Kestrels (Falco sparverius) following Embryonic Exposure to Technical Short-Chain Chlorinated Paraffins (C10-13)
Biomarker responses in American kestrels exposed in ovo to EHTBB and TBPH
Testing transmitter types, harness types, and harness materials for attachment of radio transmitters onto avian chicks
Hepatic Transcriptome of Japanese quail (Coturnix japonica) Exposed to 17B.-Trenbolone
Immunological histopathology of American kestrels (Falco sparverius) exposed to the flame retardant isopropyl triphenyl phosphate
Immunological histopathology of American kestrels (Falco sparverius) exposed in ovo to two persistent organic pollutants -- SCCPs and TBBPA-BDBPE
Scientific publications related to the Terrestrial Ecotoxicology and Disease Research Facility CTT can be found below.
Characterizing the movement of per- and polyfluoroalkyl substances in an avian aquatic–terrestrial food web
Disinfection protocols for herpetofaunal pathogens
Effects of lead exposure on birds breeding in the Southeast Missouri Lead Mining District
Egg production and endocrine profiles of female whooping cranes (Grus americana) maintained ex situ are improved in naturalized enclosures
Low estradiol production of non-laying whooping cranes (Grus americana) is associated with the failure of small follicles to enter follicular hierarchy
Effects of release techniques on parent-reared whooping cranes in the eastern migratory population
Underwater hearing in sea ducks with applications for reducing gillnet bycatch through acoustic deterrence
Multi-omics responses in tree swallow (Tachycineta bicolor) nestlings from the Maumee Area of Concern, Maumee River, Ohio
Hepatic gene expression profiling of American kestrels (Falco sparverius) exposed in ovo to three alternative brominated flame retardants
Collateral damage: Anticoagulant rodenticides pose threats to California condors
A lesser scaup (Aythya affinis ) naturally infected with Eurasian 2.3.4.4 highly pathogenic H5N1 avian influenza virus – Movement ecology and host factors
Toxicological responses to sublethal anticoagulant rodenticide exposure in free-flying hawks
Connect with members of the Terrestrial Ecotoxicology and Disease Research Facility CTT below.
Alicia Berlin, Ph.D.
Research Wildlife Biologist
Sergei Drovetski, Ph.D.
Research Wildlife Biologist
Carlyn Caldwell
Biological Science Technician
Howard Ginsberg, Ph.D.
Scientist Emeritus
Sharon Johnson
Supervisory Biological Science Technician
Glenn Olsen, Ph.D.
Veterinary Medical Officer
External partners that the Terrestrial Ecotoxicology and Disease Research Facility CTT collaborates with are linked below.
About the Research
The Terrestrial Ecotoxicology and Disease Research Facility Core Technology Team (CTT) as part of the Environmental Health Program provides an integrated mechanism for conducting controlled exposure studies on wildlife at varied spatiotemporal scales.
The Terrestrial Ecotoxicology and Disease Research CTT has three main research mechanisms:
- Captive bird colonies that can be used as models for various species of wild birds to address specific toxicological, disease or ecological hypotheses or questions;
- A variety of facilities to conduct these studies; and
- Laboratories that support this research by providing data on various non-apical genomic-molecular and biochemical indicators.
Bird Colonies
- The CTT research colonies are available for use in various types of toxicological, ecological and disease studies, including short-term exposures, reproductive and multigenerational studies, immune-challenge and disease resistance research.
- Current species include American Kestrel, Japanese quail (an avian model species for endocrine research) and several seaduck species. All of these species reproduce in captivity and are well-accepted research models used in wildlife toxicology.
Facilites
- Raptor facility which maintains kestrels in a series of large flight pens that have enabled the colony to reproduce and remain self-sustaining for over 50 years
- Smaller pens used for more controlled exposure studies, such as PFAS impacts on avian reproduction and physiological responses to pesticides
- Seaduck facility which include large pens with flow through water systems that provide clean filtered water to the ducks in a covered, outdoor setting
- Indoor diving tanks that serve as experimental chambers in which the birds’ diving behavior can be studied under various environmental conditions
- Mesocosms, each with its own pump house and wetland/marsh area that provides habitat for an entire food chain from invertebrates to amphibians, to birds
- Indoor experimental animal facilities, which permit temperature-controlled studies to be conducted
- Egg incubators can be used to hatch bird eggs whether collected from our own colonies or brought in from the field
- Two environmental chambers that provide for controlled temperature and light conditions used for reptile and amphibian exposures
Laboratories for Biomarker Analyses
- Fully equipped laboratory that provides gene expression, microbiome, antibiotic resistance and virulome analyses, along with other molecular methods
- Immune and chromogenic assays to analyze various biochemical indicators including those for oxidative stress, steroid and thyroid hormones
- Blood clotting assays and analyze for various response endpoints from both arms of the immune system.
Environmental Health Integrated Science Team Collaborators
-
Food Resources Lifecycle Integrated Science Team
The team studies the movement of toxicants and pathogens that could originate from the growing, raising, and processing/manufacturing of plant and animal products through the environment where exposure can occur. This information is used to understand if there are adverse effects upon exposure and to develop decision tools to protect health.Energy Integrated Science Team
The Energy Lifecycle Integrated Science Team focuses on the potential for contaminant exposures in the environment that might originate from energy resource activities including, extraction, production, transportation, storage, extraction, waste management and restoration. Perceived health risks to humans and other organisms will be distinguished from actual risks, if any. If actual risks are...
Data related to the Terrestrial Ecotoxicology and Disease Research Facility CTT can be found below.
Hepatic gene expression transcript counts in liver samples of American kestrels
Toxicological responses to sublethal anticoagulant rodenticide exposure in free-flying red-tailed hawks
Characterizing microbiota, virulome, and resistome of wild prairie grouse in crop producing and uncultivated areas of Nebraska
Laboratory analysis assessing immune response after flame retardant exposure in American kestrels, Falco sparverius, through 21 days post-hatch
Discerning innate immunity in American kestrels, Falco sparverius, through 21 days post-hatch
Physiological and Endocrine Responses of Hatchling American Kestrels (Falco sparverius) following Embryonic Exposure to Technical Short-Chain Chlorinated Paraffins (C10-13)
Biomarker responses in American kestrels exposed in ovo to EHTBB and TBPH
Testing transmitter types, harness types, and harness materials for attachment of radio transmitters onto avian chicks
Hepatic Transcriptome of Japanese quail (Coturnix japonica) Exposed to 17B.-Trenbolone
Immunological histopathology of American kestrels (Falco sparverius) exposed to the flame retardant isopropyl triphenyl phosphate
Immunological histopathology of American kestrels (Falco sparverius) exposed in ovo to two persistent organic pollutants -- SCCPs and TBBPA-BDBPE
Scientific publications related to the Terrestrial Ecotoxicology and Disease Research Facility CTT can be found below.
Characterizing the movement of per- and polyfluoroalkyl substances in an avian aquatic–terrestrial food web
Disinfection protocols for herpetofaunal pathogens
Effects of lead exposure on birds breeding in the Southeast Missouri Lead Mining District
Egg production and endocrine profiles of female whooping cranes (Grus americana) maintained ex situ are improved in naturalized enclosures
Low estradiol production of non-laying whooping cranes (Grus americana) is associated with the failure of small follicles to enter follicular hierarchy
Effects of release techniques on parent-reared whooping cranes in the eastern migratory population
Underwater hearing in sea ducks with applications for reducing gillnet bycatch through acoustic deterrence
Multi-omics responses in tree swallow (Tachycineta bicolor) nestlings from the Maumee Area of Concern, Maumee River, Ohio
Hepatic gene expression profiling of American kestrels (Falco sparverius) exposed in ovo to three alternative brominated flame retardants
Collateral damage: Anticoagulant rodenticides pose threats to California condors
A lesser scaup (Aythya affinis ) naturally infected with Eurasian 2.3.4.4 highly pathogenic H5N1 avian influenza virus – Movement ecology and host factors
Toxicological responses to sublethal anticoagulant rodenticide exposure in free-flying hawks
Connect with members of the Terrestrial Ecotoxicology and Disease Research Facility CTT below.
Alicia Berlin, Ph.D.
Research Wildlife Biologist
Sergei Drovetski, Ph.D.
Research Wildlife Biologist
Carlyn Caldwell
Biological Science Technician
Howard Ginsberg, Ph.D.
Scientist Emeritus
Sharon Johnson
Supervisory Biological Science Technician
Glenn Olsen, Ph.D.
Veterinary Medical Officer
External partners that the Terrestrial Ecotoxicology and Disease Research Facility CTT collaborates with are linked below.