In FY22, we received one year of GLRI funding to explore the feasibility of making and rearing Kiyi or Kiyi-hybrid crosses for the establishment of research stocks at the Little Traverse Bay Band of Odawa Indians (LTBB) Hatchery, Ann Arbor wet lab (AA), and...
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Lake Huron
Coregonine Captive Broodstock Developed from Wild-Caught Juveniles: Dual Strategies to Mitigate Barotrauma-Induced Mortality
Development of eDNA markers for Coregonids in the Great Lakes
Determining when and how Cisco and Lake Whitefish recruitment can be reliably indexed to support evaluation, restoration, and management
Investigating past and future climate conditions of coregonine restoration habitats: A case study of Cisco in Saginaw Bay
Cisco (Coregonus artedi) was once one of the most abundant pelagic fishes in Lake Huron (Koelz 1929), supporting a large fishery in Saginaw Bay throughout the early 1900s (GLFC 2022, Rook et al. 2024). The population supporting this fishery, however, began to collapse...
The role of DNA methylation in morphological deformities in artificially reared cisco (Coregonus artedi)
We propose a pilot project to investigate the effects of artificial rearing on cisco DNA methylation. This project will build on an ongoing project funded in FY24 led by A. Honsey (“Effects of incubation temperature on survival, growth, morphology, and gene expression...
Impact of egg fatty acid signatures on embryo viability in wild and domesticated cisco
One of the major challenges in the aquaculture of bloater (Coregonus hoyi) and cisco (Coregonus artedi) is the low survival rate of larvae from hatchery-reared broodstock compared to wild broodstock. Percent eye-up of bloater eggs from parents fed different diets at...
Genetic Monitoring of Bloater Broodstock using a GTSeq (Genotypes by thousands sequencing) Panel
Hatchery production is a central component of coregonine restoration within the Great Lakes ecosystem, and active supplementation programs are currently underway in Lakes Ontario and Huron. As the development of coregonine broodstock lines and methods associated with...
Development of a Novel Telemetry Tag Attachment Method for Understanding Coregonine Ecology, Movements, and Habitat Use
Acoustic telemetry is at the forefront of fisheries research and management in the Great Lakes, and the combination of the ever-expanding receiver network coupled with over 25,000 tagged fish across 53 species (since 2010) continues to provide a wealth of critical...
Implementation of Coregonine Population Viability Analysis within the Coregonine Restoration Framework – Year 4
The Coregonine Restoration Framework (CRF) provides an adaptive management structure to guide restoration of this suite of species in the Great Lakes Region. Initial steps in this effort established four science teams—Resolve Taxonomy, GAP Analysis, Population...
Continuing evaluation components of the Lake Huron Technical Committee’s Cisco reintroduction study for FY25
Cisco (Coregonus artedi) are functionally absent from the western main basin of Lake Huron and as such restoring Cisco “to a significant level” (DesJardine, 1995) remains an unmet objective for Lake Huron management agencies (Riley and Ebener, 2020). In 2007 the Lake...
Evaluation of sequential chemical marking of Oxytetracycline, Alizarin Red S, and Calcein in calcified structures of bloaters (Coregonus hoyi)
This project will investigate the unique chemical marking patterns produced within the otoliths, lower jaw, and ribs of bloaters after sequential immersions of Oxytetracycline (OTC), Alizarin Red S (ARS), and calcein. This project is fully aligned with the Coregonine...
Expanding efforts to document and understand Great Lakes coregonine river spawning – Year 2
Restoration and conservation efforts hinge on the identification of key habitats, such as fish spawning habitats (Lewis et al. 1996; Kondolf 2000), and the potentially distinct populations that use them. Knowledge of these habitats can help to ensure that conservation...
Expanding efforts to document and understand Great Lakes coregonine river spawning
Coregonines were once among the most diverse and ecologically, economically, and culturally important groups of fishes in the Great Lakes (Koelz 1929; Smith 1968; Eshenroder et al. 2016; Duncan 2020). Coregonines declined dramatically throughout the Great Lakes in...
Effects of incubation temperature on survival, growth, morphology, and gene expression of artificially reared cisco (Coregonus artedi): implications for best practices for captive propagation and restoration
A key tool for Great Lakes coregonine restoration is reintroduction via fish stocking. Stocking programs are currently underway, including efforts to restore cisco Coregonus artedi in Saginaw Bay, Lake Huron (Lake Huron Technical Committee 2007; Riley and Ebener 2020)...
Evaluating post-stocking movement, mortality, and habitat use of fall-stocked cisco Coregonus artedi in Saginaw Bay, Lake Huron with acoustic telemetry
The Lake Huron Committee aims to restore cisco Coregonus artedi in Lake Huron (DesJardine et al. 1995; Lake Huron Technical Committee 2023). To that end, the Lake Huron Technical Committee has implemented a plan for re-establishing a population in the main basin of...
Developing a high throughput method to genotype coregonines at a standardized panel of loci for genetic monitoring and parentage-based tagging applications
A central component of coregonine restoration in the Great Lakes is hatchery production, and active supplementation programs are underway in Lakes Ontario and Huron. Importantly, these efforts must consider the decades of work in other salmonids that demonstrate...
Supporting evaluation components of the Lake Huron Technical Committee’s Cisco reintroduction study for FY24
Cisco (Coregonus artedi) are functionally absent from the western main basin of Lake Huron and as such restoring Cisco “to a significant level” (DesJardine 1995) remains an unmet objective for Lake Huron management agencies (Riley and Ebener 2020). In 2007 the Lake...
A coordinated approach to monitoring of a coregonine brood and cultured progeny in the R3 FWS hatchery program
Broodstock management and monitoring programs are vital components of all types of stocking initiatives (e.g. Captive, Supportive, restorative, rescue). Broodstock collection and development should aim to preserve genetic diversity and minimize inbreeding and stocking...
Development of conceptual early life history models and evaluation of sampling techniques in support of long-term monitoring for cisco and lake whitefish
Recruitment is set early during life (<2 years of age) for many fish populations (Hjort 1914, Houde 1987). From fertilization to juvenile stages, fishes are susceptible to abiotic and biotic factors that directly or indirectly influence growth, condition, and survival (Ludsin et al. 2014, Pritt et al. 2014). The mechanistic processes influencing recruitment, their interactions,and the timing at which they are most influential remains unclear for many fishes. By improving understanding of early life history (ELH) ecology and recruitment constraints, we can improve monitoring and support more informed management decisions. Long-term ELH monitoring programs that inform management are limited for cisco (Coregonus artedi) across the Great Lakes.
Supporting evaluation components of the Lake Huron Technical Committee’s Cisco reintroduction study for FY23
Cisco (Coregonus artedi) are functionally absent from the western main basin of Lake Huron and as such restoring cisco “to a significant level” (DesJardine 1995) remains an unmet objective for Lake Huron management agencies (Liskauskas et al. 2007). In 2007 the Lake...
Examining the potential for unrepresentative sampling during cisco Coregonus artedi gamete collections for the Saginaw Bay restoration effort – Year 2
The cisco Coregonus artedi restoration effort in Saginaw Bay utilizes gametes sourced from northern Lake Huron, in the Les Cheneaux Islands and Drummond Island region (LHTC 2007). Gametes have been collected from bays in the Les Cheneaux area and Whitney Bay (Drummond...
Examining the potential for unrepresentative sampling during cisco Coregonus artedi gamete collections for the Saginaw Bay restoration effort
Great Lakes cisco populations declined during the 19th and 20th centuries due to factors such as overfishing, habitat degradation, and interactions with invasive species (Van Oosten 1930; Crowder 1980; Myers et al. 2009; George 2019). Cisco are now considered...
Supporting evaluation components of the Lake Huron Technical Committee’s Cisco reintroduction study: a multi-agency effort to promote Cisco recovery in the western main basin of Lake Huron (FY22)
The U.S. Fish and Wildlife service conducted larval coregonine surveys in 2022 aimed at documenting the current distribution, composition, and density of the larval coregonid community in Saginaw Bay. Sampling of the ichthyoplankton community was limited to pelagic...
Use of multi-gear sampling to improve abundance estimates of demersal Coregonines in the Great Lakes
Acoustic and mid-water trawl surveys have been used to estimate abundance and biomass of Great Lakes coregonines for decades. Acoustic sampling has potential to be an important tool in the assessment of future coregonine restoration efforts because new populations...