DOCSLIB.ORG

3Rd Quarter 2020 Update Table A. Summary of Stock Status for FSSI

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
3Rd Quarter 2020 Update Table A. Summary of Stock Status for FSSI National Marine Fisheries Service - 3rd Quarter 2020 Update Table A. Summary of Stock Status for FSSI Stocks Overfishing? Overfished? (Is Fishing Management Rebuilding (Is Biomass Approaching Jurisdiction FMP Stock Mortality Action Program B/B Points below Overfished MSY above Required Progress Threshold?) Threshold?) Consolidated Atlantic Highly Atlantic sharpnose shark - Atlantic HMS No No No NA NA 2.08 4 Migratory Species Atlantic Consolidated Atlantic Highly Atlantic sharpnose shark - Atlantic HMS No No No NA NA 1.02 4 Migratory Species Gulf of Mexico Reduce Consolidated Atlantic Highly Mortality, Year 8 of 30- Atlantic HMS Blacknose shark - Atlantic Yes Yes NA 0.43-0.64 1 Migratory Species Continue year plan Rebuilding Consolidated Atlantic Highly not Atlantic HMS Blacktip shark - Atlantic Unknown Unknown Unknown NA NA 0 Migratory Species estimated Consolidated Atlantic Highly Blacktip shark - Gulf of Atlantic HMS No No No NA NA 2.62 4 Migratory Species Mexico Consolidated Atlantic Highly Finetooth shark - Atlantic Atlantic HMS No No No NA NA 1.30 4 Migratory Species and Gulf of Mexico Consolidated Atlantic Highly Great hammerhead - Atlantic not Atlantic HMS Unknown Unknown Unknown NA NA 0 Migratory Species and Gulf of Mexico estimated Consolidated Atlantic Highly Lemon shark - Atlantic and not Atlantic HMS Unknown Unknown Unknown NA NA 0 Migratory Species Gulf of Mexico estimated Consolidated Atlantic Highly Sandbar shark - Atlantic and Continue Year 16 of 66- Atlantic HMS No Yes NA 0.77 2 Migratory Species Gulf of Mexico Rebuilding year plan Reduce Consolidated Atlantic Highly Scalloped hammerhead - Mortality, Year 8 of 10- Atlantic HMS Yes Yes NA 0.45 1 Migratory Species Atlantic and Gulf of Mexico Continue year plan Rebuilding Consolidated Atlantic Highly Atlantic HMS Smooth dogfish - Atlantic No No No NA NA 2.29 4 Migratory Species Consolidated Atlantic Highly Smooth hammerhead - not Atlantic HMS Unknown Unknown Unknown NA NA 0 Migratory Species Atlantic and Gulf of Mexico estimated Spiny Lobster Fishery of Caribbean spiny lobster - CFMC Puerto Rico and the U.S. No No No NA NA 1.35 4 Puerto Rico Virgin Islands 1 National Marine Fisheries Service - 3rd Quarter 2020 Update Table A. Summary of Stock Status for FSSI Stocks Overfishing? Overfished? (Is Fishing Management Rebuilding (Is Biomass Approaching Jurisdiction FMP Stock Mortality Action Program B/B Points below Overfished MSY above Required Progress Threshold?) Threshold?) Spiny Lobster Fishery of Caribbean spiny lobster - St. CFMC Puerto Rico and the U.S. No No No NA NA 1.96 4 Croix Virgin Islands Spiny Lobster Fishery of Caribbean spiny lobster - St. CFMC Puerto Rico and the U.S. No No No NA NA 1.55 4 Thomas / St. John Virgin Islands Reef Fish Resources of the GMFMC Gag - Gulf of Mexico No No No NA NA 1.78 4 Gulf of Mexico Reef Fish Resources of the Gray snapper - Gulf of GMFMC No No No NA NA 0.70 3 Gulf of Mexico Mexico Reduce Reef Fish Resources of the Gray triggerfish - Gulf of No - Mortality, Year 3 of 8- GMFMC Yes No 0.58 2 Gulf of Mexico Mexico * Rebuilding Continue year plan Rebuilding Reduce Reef Fish Resources of the Greater amberjack - Gulf of Mortality, Year 3 of 10- GMFMC Yes Yes NA 0.29 1 Gulf of Mexico Mexico * Continue year plan Rebuilding Reef Fish Resources of the Hogfish - Eastern Gulf of GMFMC No No No NA NA 2.36 4 Gulf of Mexico Mexico Reef Fish Resources of the Lane snapper - Gulf of not GMFMC No Unknown Unknown NA NA 1.5 Gulf of Mexico Mexico estimated Reef Fish Resources of the Red grouper - Gulf of GMFMC No No No NA NA 0.82 4 Gulf of Mexico Mexico Reef Fish Resources of the Red snapper - Gulf of No - Continue Year 16 of 28- GMFMC No No 0.70 3 Gulf of Mexico Mexico * Rebuilding Rebuilding year plan Reef Fish Resources of the GMFMC Tilefish - Gulf of Mexico * No No Unknown NA NA 2.30 4 Gulf of Mexico Reef Fish Resources of the Vermilion snapper - Gulf of GMFMC No No No NA NA 1.75 4 Gulf of Mexico Mexico Reef Fish Resources of the Yellowedge grouper - Gulf of GMFMC No No No NA NA 1.11 4 Gulf of Mexico Mexico * 2 National Marine Fisheries Service - 3rd Quarter 2020 Update Table A. Summary of Stock Status for FSSI Stocks Overfishing? Overfished? (Is Fishing Management Rebuilding (Is Biomass Approaching Jurisdiction FMP Stock Mortality Action Program B/B Points below Overfished MSY above Required Progress Threshold?) Threshold?) Shrimp Fishery of the Gulf Brown shrimp - Gulf of GMFMC No No No NA NA 4.39 4 of Mexico Mexico Shrimp Fishery of the Gulf GMFMC Pink shrimp - Gulf of Mexico No No No NA NA 2.65 4 of Mexico Shrimp Fishery of the Gulf Royal red shrimp - Gulf of not GMFMC No Unknown Unknown NA NA 1.5 of Mexico Mexico estimated Shrimp Fishery of the Gulf White shrimp - Gulf of GMFMC No No No NA NA 1.76 4 of Mexico Mexico Reduce Mackerel, Squid and Atlantic mackerel - Gulf of Mortality, Year 1 of 5- MAFMC Yes Yes NA 0.22 1 Butterfish Maine / Cape Hatteras Rebuilding year plan Program Mackerel, Squid and Butterfish - Gulf of Maine / MAFMC No No No NA NA 1.41 4 Butterfish Cape Hatteras Longfin inshore squid - Mackerel, Squid and MAFMC Georges Bank / Cape Unknown No No NA NA 1.74 2.5 Butterfish Hatteras Northern shortfin squid - Mackerel, Squid and not MAFMC Northwestern Atlantic Coast No Unknown Unknown NA NA 1.5 Butterfish estimated * Atlantic Surfclam and Ocean Atlantic surfclam - Mid- MAFMC No No No NA NA 2.54 4 Quahog Atlantic Coast Atlantic Surfclam and Ocean Ocean quahog - Atlantic MAFMC No No No NA NA 1.63 4 Quahog Coast Rebuilding MAFMC Bluefish Bluefish - Atlantic Coast * No Yes NA NA 0.46 2 Program Summer Flounder, Scup and Black sea bass - Mid-Atlantic MAFMC No No No NA NA 2.37 4 Black Sea Bass Coast Summer Flounder, Scup and MAFMC Scup - Atlantic Coast No No No NA NA 1.98 4 Black Sea Bass Summer Flounder, Scup and Summer flounder - Mid- MAFMC No No No NA NA 0.78 3 Black Sea Bass Atlantic Coast 3 National Marine Fisheries Service - 3rd Quarter 2020 Update Table A. Summary of Stock Status for FSSI Stocks Overfishing? Overfished? (Is Fishing Management Rebuilding (Is Biomass Approaching Jurisdiction FMP Stock Mortality Action Program B/B Points below Overfished MSY above Required Progress Threshold?) Threshold?) MAFMC Tilefish Tilefish - Mid-Atlantic Coast No No No NA NA 0.89 4 Atlantic herring - Rebuilding NEFMC Atlantic Herring No Yes NA NA 0.29 2 Northwestern Atlantic Coast* Program Sea scallop - Northwestern NEFMC Atlantic Sea Scallop No No No NA NA 2.72 4 Atlantic Coast Acadian redfish - Gulf of NEFMC Northeast Multispecies No No No NA NA 1.45 4 Maine / Georges Bank American plaice - Gulf of NEFMC Northeast Multispecies No No No NA NA 1.16 4 Maine / Georges Bank Reduce Mortality, Year 17 of 23- NEFMC Northeast Multispecies Atlantic cod - Georges Bank* Yes Yes NA 0.07 1 Continue year plan Rebuilding Reduce Mortality, Year 7 of 10- NEFMC Northeast Multispecies Atlantic cod - Gulf of Maine* Yes Yes NA 0.06-0.09 1 Continue year plan Rebuilding Atlantic halibut - Continue Year 17 of 52- NEFMC Northeast Multispecies No Yes NA 0.03 2 Northwestern Atlantic Coast* Rebuilding year plan NEFMC Northeast Multispecies Haddock - Georges Bank No No No NA NA 3.65 4 NEFMC Northeast Multispecies Haddock - Gulf of Maine No No No NA NA 10.35 4 Pollock - Gulf of Maine / NEFMC Northeast Multispecies No No No NA NA 1.70 4 Georges Bank Reduce Red hake - Southern Georges Mortality, NEFMC Northeast Multispecies Yes Yes NA NA 0.37 1 Bank / Mid-Atlantic * Rebuilding Program Silver hake - Gulf of Maine / NEFMC Northeast Multispecies No No No NA NA 3.10 4 Northern Georges Bank 4 National Marine Fisheries Service - 3rd Quarter 2020 Update Table A. Summary of Stock Status for FSSI Stocks Overfishing? Overfished? (Is Fishing Management Rebuilding (Is Biomass Approaching Jurisdiction FMP Stock Mortality Action Program B/B Points below Overfished MSY above Required Progress Threshold?) Threshold?) Silver hake - Southern NEFMC Northeast Multispecies No No No NA NA 0.64 3 Georges Bank / Mid-Atlantic White hake - Gulf of Maine / Continue Year 17 of 10- NEFMC Northeast Multispecies No Yes NA 0.50 2 Georges Bank * Rebuilding year plan Winter flounder - Georges Continue Year 2 of 10- NEFMC Northeast Multispecies No Yes NA 0.24 2 Bank * Rebuilding year plan Winter flounder - Gulf of not NEFMC Northeast Multispecies No Unknown Unknown NA NA 1.5 Maine estimated Winter flounder - Southern Continue Year 8 of 10- NEFMC Northeast Multispecies New England / Mid-Atlantic No Yes NA 0.18 2 Rebuilding year plan * Witch flounder - Continue Year 2 of 23- NEFMC Northeast Multispecies Unknown Yes NA <<1 0.5 Northwestern Atlantic Coast* Rebuilding year plan Yellowtail flounder - Cape No - Continue Year 17 of 19- NEFMC Northeast Multispecies No No 0.62 3 Cod / Gulf of Maine Rebuilding Rebuilding year plan Yellowtail flounder - Continue Year 2 of 10- NEFMC Northeast Multispecies Southern New England / No Yes NA 0.05 2 Rebuilding year plan Mid-Atlantic * Little skate - Georges Bank / NEFMC Northeast Skate Complex No No No NA NA 0.87 4 Southern New England Winter skate - Georges Bank NEFMC Northeast Skate Complex No No No NA NA 1.28 4 / Southern New England NEFMC / Goosefish - Gulf of Maine / Monkfish No No No NA NA 1.31 4 MAFMC Northern Georges Bank * Goosefish - Southern NEFMC / Monkfish Georges Bank / Mid-Atlantic No No No NA NA 1.55 4 MAFMC * NEFMC / Spiny Dogfish Spiny dogfish - Atlantic Coast No No No NA NA 0.67 3 MAFMC 5 National Marine Fisheries Service - 3rd Quarter 2020 Update Table A.
Load more

Recommended publications
  • Research Plan 2 3 A
    Arctic Pre-proposal 3.4-Galloway 1 Research Plan 2 3 A. Project Title: Characterizing lipid production hotspots, phenology, and trophic transfer at the 4 algae-herbivore interface in the Chukchi Sea 5 6 B. Category: 3. Oceanography and lower trophic level productivity: Influence of sea ice dynamics and 7 advection on the phenology, magnitude and location of primary and secondary production, match- 8 mismatch, benthic-pelagic coupling, and the influence of winter conditions. 9 10 C. Rationale and justification: 11 The spatial extent of arctic sea ice is declining and earlier seasonal sea ice melt may dramatically 12 affect the magnitude, and spatial and temporal scale of primary production (Kahru et al. 2011, Wassmann 13 2011). In order to predict the consequences of these changes to ecosystems, it is important that we 14 understand the mechanistic links between temporally dynamic ice conditions and the physical factors 15 which govern phytoplankton growth (Popova et al. 2010). The mechanisms that govern productivity of 16 the Chukchi Sea ecosystem are of considerable interest due to dramatically changing temporal and spatial 17 patterns of sea ice coverage and because this area is likely to be the subject of intense fossil fuel 18 exploration in coming decades (Dunton et al. 2014). Tracing the biochemical pathways of basal resources 19 (pelagic and attached micro- and macroalgae) in this system is critical if we are to better understand how 20 the Chukchi Sea ecosystem might be modified in the future by a changing climate and offshore oil and 21 gas exploration and production (McTigue and Dunton 2014).
    [Show full text]
  • Winter Flounder Pseudopleuronectes Americanus Stock Enhancement in New Hampshire: Developing Optimal Release Strategies
    University of New Hampshire University of New Hampshire Scholars' Repository Doctoral Dissertations Student Scholarship Spring 2002 Winter flounder Pseudopleuronectes americanus stock enhancement in New Hampshire: Developing optimal release strategies Elizabeth Alden Fairchild University of New Hampshire, Durham Follow this and additional works at: https://scholars.unh.edu/dissertation Recommended Citation Fairchild, Elizabeth Alden, "Winter flounder Pseudopleuronectes americanus stock enhancement in New Hampshire: Developing optimal release strategies" (2002). Doctoral Dissertations. 62. https://scholars.unh.edu/dissertation/62 This Dissertation is brought to you for free and open access by the Student Scholarship at University of New Hampshire Scholars' Repository. It has been accepted for inclusion in Doctoral Dissertations by an authorized administrator of University of New Hampshire Scholars' Repository. For more information, please contact [email protected]. INFORMATION TO USERS This manuscript has been reproduced from the microfilm master. UMI films the text directly from the original or copy submitted. Thus, some thesis and dissertation copies are in typewriter face, while others may be from any type of computer printer. The quality of this reproduction is dependent upon the quality of the copy submitted. Broken or indistinct print, colored or poor quality illustrations and photographs, print bleedthrough, substandard margins, and improper alignment can adversely affect reproduction. In the unlikely event that the author did not send UMI a complete manuscript and there are missing pages, these will be noted. Also, if unauthorized copyright material had to be removed, a note will indicate the deletion. Oversize materials (e.g., maps, drawings, charts) are reproduced by sectioning the original, beginning at the upper left-hand comer and continuing from left to right in equal sections with small overlaps.
    [Show full text]
  • FISH LIST WISH LIST: a Case for Updating the Canadian Government’S Guidance for Common Names on Seafood
    FISH LIST WISH LIST: A case for updating the Canadian government’s guidance for common names on seafood Authors: Christina Callegari, Scott Wallace, Sarah Foster and Liane Arness ISBN: 978-1-988424-60-6 © SeaChoice November 2020 TABLE OF CONTENTS GLOSSARY . 3 EXECUTIVE SUMMARY . 4 Findings . 5 Recommendations . 6 INTRODUCTION . 7 APPROACH . 8 Identification of Canadian-caught species . 9 Data processing . 9 REPORT STRUCTURE . 10 SECTION A: COMMON AND OVERLAPPING NAMES . 10 Introduction . 10 Methodology . 10 Results . 11 Snapper/rockfish/Pacific snapper/rosefish/redfish . 12 Sole/flounder . 14 Shrimp/prawn . 15 Shark/dogfish . 15 Why it matters . 15 Recommendations . 16 SECTION B: CANADIAN-CAUGHT SPECIES OF HIGHEST CONCERN . 17 Introduction . 17 Methodology . 18 Results . 20 Commonly mislabelled species . 20 Species with sustainability concerns . 21 Species linked to human health concerns . 23 Species listed under the U .S . Seafood Import Monitoring Program . 25 Combined impact assessment . 26 Why it matters . 28 Recommendations . 28 SECTION C: MISSING SPECIES, MISSING ENGLISH AND FRENCH COMMON NAMES AND GENUS-LEVEL ENTRIES . 31 Introduction . 31 Missing species and outdated scientific names . 31 Scientific names without English or French CFIA common names . 32 Genus-level entries . 33 Why it matters . 34 Recommendations . 34 CONCLUSION . 35 REFERENCES . 36 APPENDIX . 39 Appendix A . 39 Appendix B . 39 FISH LIST WISH LIST: A case for updating the Canadian government’s guidance for common names on seafood 2 GLOSSARY The terms below are defined to aid in comprehension of this report. Common name — Although species are given a standard Scientific name — The taxonomic (Latin) name for a species. common name that is readily used by the scientific In nomenclature, every scientific name consists of two parts, community, industry has adopted other widely used names the genus and the specific epithet, which is used to identify for species sold in the marketplace.
    [Show full text]
  • Modeling Gag Grouper (Mycteroperca Microlepis
    Louisiana State University LSU Digital Commons LSU Master's Theses Graduate School 2009 Modeling gag grouper (Mycteroperca microlepis) in the Gulf of Mexico: exploring the impact of marine reserves on the population dynamics of a protogynous grouper Robert D. Ellis Louisiana State University and Agricultural and Mechanical College, [email protected] Follow this and additional works at: https://digitalcommons.lsu.edu/gradschool_theses Part of the Oceanography and Atmospheric Sciences and Meteorology Commons Recommended Citation Ellis, Robert D., "Modeling gag grouper (Mycteroperca microlepis) in the Gulf of Mexico: exploring the impact of marine reserves on the population dynamics of a protogynous grouper" (2009). LSU Master's Theses. 4146. https://digitalcommons.lsu.edu/gradschool_theses/4146 This Thesis is brought to you for free and open access by the Graduate School at LSU Digital Commons. It has been accepted for inclusion in LSU Master's Theses by an authorized graduate school editor of LSU Digital Commons. For more information, please contact [email protected]. MODELING GAG GROUPER (MYCTEROPERCA MICROLEPIS) IN THE GULF OF MEXICO: EXPLORING THE IMPACT OF MARINE RESERVES ON THE POPULATION DYNAMICS OF A PROTOGYNOUS GROUPER A Thesis Submitted to the Graduate Faculty of the Louisiana State University and Agricultural and Mechanical College in partial fulfillment of the requirements for the degree of Master of Science in The Department of Oceanography and Coastal Sciences by Robert D. Ellis B.S., University of California Santa Barbara, 2004 August 2009 ACKNOWLEDGEMENTS I would like to thank the State of Louisiana Board of Regents for funding this research with an 8G Fellowship. My research and thesis were greatly improved by the comments and assistance of many people, first among them my advisor Dr.
    [Show full text]
  • Honoring the Family Meal Helping Families Be Healthier and Happier with Quick, Easy Seafood Meals
    Honoring the Family Meal Helping families be healthier and happier with quick, easy seafood meals OCTOBER IS NATIONAL SEAFOOD MONTH Seafood Nutrition Partnership is here to inspire Americans to enjoy seafood at least twice a week by showing how buying and Fun ways to preparing seafood is simple and delicious! USE THIS TOOLKIT For National Seafood Month in October, we are bringing the This toolkit is designed to inspire and focus back to family. demonstrate how you can implement National Seafood Month this October. Magic happens during family mealtime when children and parents Within the theme, several messaging tracks gather around the table and engage each other in conversation. Family meals eaten at home have been proven to benefit the will be promoted to speak to different health and wellness of children and adolescents, to fight obesity consumers. Please utilize the turnkey and substance abuse, and to make families stronger—creating a resources and messaging, or work with us to positive impact on our communities and our nation as a whole. customize it for your audiences. Join us as we work collaboratively with health partners, ▶ Quick, Easy Weeknight Meals seafood companies, retailers and dietitians from across the Many fish dishes cook in 15 minutes or less country to bring families back to the table. ▶ Fun Ways to Engage Seafood Nutrition Partnership is partnering with the Food Little Seafoodies Marketing Institute Foundation to emphasize the importance of Get kids cooking in the kitchen family meals, expanding National Family Meals Month throughout the year and into a true movement — the Family Meals Movement.
    [Show full text]
  • Schedule Onlinepdf
    Detailed schedule 8:30 Opening session 9:00 Keynote lecture: Impacts of climate change on flatfish populations - patterns of change 100 days to 100 years: Short and long-term responses of flatfish to sea temperature change David Sims 9:30 Nine decades of North Sea sole and plaice distributions Georg H. Engelhard (Engelhard GH, Pinnegar JK, Kell LT, Rijnsdorp AD) 9:50 Climatic effects on recruitment variability in Platichthys flesus and Solea solea: defining perspectives for management. Filipe Martinho (Martinho F, Viegas I, Dolbeth M, Sousa H, Cabral HN, Pardal MA) 10:10 Are flatfish species with southern biogeographic affinities increasing in the Celtic Sea? Christopher Lynam (Lynam C, Harlay X, Gerritsen H, Stokes D) 10:30 Coffee break 11:00 Climate related changes in abundance of non-commercial flatfish species in the North Sea Ralf van Hal (van Hal R, Smits K, Rijnsdorp AD) 11:20 Inter-annual variability of potential spawning habitat of North Sea plaice Christophe Loots (Loots C, Vaz S, Koubii P, Planque B, Coppin F, Verin Y) 11:40 Annual variation in simulated drift patterns of egg/larvae from spawning areas to nursery and its implication for the abundance of age-0 turbot (Psetta maxima) Claus R. Sparrevohn (Sparrevohn CR, Hinrichsen H-H, Rijnsdorp AD) 12:00 Broadscale patterns in population dynamics of juvenile plaice: W Scotland 2001-2008 Michael T. Burrows (Burrows MT, Robb L, Harvey R, Batty RS) 12:20 Impact of global warming on abundance and occurrence of flatfish populations in the Bay of Biscay (France) Olivier Le Pape (Hermant
    [Show full text]
  • Early Stages of Fishes in the Western North Atlantic Ocean Volume
    ISBN 0-9689167-4-x Early Stages of Fishes in the Western North Atlantic Ocean (Davis Strait, Southern Greenland and Flemish Cap to Cape Hatteras) Volume One Acipenseriformes through Syngnathiformes Michael P. Fahay ii Early Stages of Fishes in the Western North Atlantic Ocean iii Dedication This monograph is dedicated to those highly skilled larval fish illustrators whose talents and efforts have greatly facilitated the study of fish ontogeny. The works of many of those fine illustrators grace these pages. iv Early Stages of Fishes in the Western North Atlantic Ocean v Preface The contents of this monograph are a revision and update of an earlier atlas describing the eggs and larvae of western Atlantic marine fishes occurring between the Scotian Shelf and Cape Hatteras, North Carolina (Fahay, 1983). The three-fold increase in the total num- ber of species covered in the current compilation is the result of both a larger study area and a recent increase in published ontogenetic studies of fishes by many authors and students of the morphology of early stages of marine fishes. It is a tribute to the efforts of those authors that the ontogeny of greater than 70% of species known from the western North Atlantic Ocean is now well described. Michael Fahay 241 Sabino Road West Bath, Maine 04530 U.S.A. vi Acknowledgements I greatly appreciate the help provided by a number of very knowledgeable friends and colleagues dur- ing the preparation of this monograph. Jon Hare undertook a painstakingly critical review of the entire monograph, corrected omissions, inconsistencies, and errors of fact, and made suggestions which markedly improved its organization and presentation.
    [Show full text]
  • Clean &Unclean Meats
    Clean & Unclean Meats God expects all who desire to have a relationship with Him to live holy lives (Exodus 19:6; 1 Peter 1:15). The Bible says following God’s instructions regarding the meat we eat is one aspect of living a holy life (Leviticus 11:44-47). Modern research indicates that there are health benets to eating only the meat of animals approved by God and avoiding those He labels as unclean. Here is a summation of the clean (acceptable to eat) and unclean (not acceptable to eat) animals found in Leviticus 11 and Deuteronomy 14. For further explanation, see the LifeHopeandTruth.com article “Clean and Unclean Animals.” BIRDS CLEAN (Eggs of these birds are also clean) Chicken Prairie chicken Dove Ptarmigan Duck Quail Goose Sage grouse (sagehen) Grouse Sparrow (and all other Guinea fowl songbirds; but not those of Partridge the corvid family) Peafowl (peacock) Swan (the KJV translation of “swan” is a mistranslation) Pheasant Teal Pigeon Turkey BIRDS UNCLEAN Leviticus 11:13-19 (Eggs of these birds are also unclean) All birds of prey Cormorant (raptors) including: Crane Buzzard Crow (and all Condor other corvids) Eagle Cuckoo Ostrich Falcon Egret Parrot Kite Flamingo Pelican Hawk Glede Penguin Osprey Grosbeak Plover Owl Gull Raven Vulture Heron Roadrunner Lapwing Stork Other birds including: Loon Swallow Albatross Magpie Swi Bat Martin Water hen Bittern Ossifrage Woodpecker ANIMALS CLEAN Leviticus 11:3; Deuteronomy 14:4-6 (Milk from these animals is also clean) Addax Hart Antelope Hartebeest Beef (meat of domestic cattle) Hirola chews
    [Show full text]
  • Wholesale Market Profiles for Alaska Groundfish and Crab Fisheries
    JANUARY 2020 Wholesale Market Profiles for Alaska Groundfish and FisheriesCrab Wholesale Market Profiles for Alaska Groundfish and Crab Fisheries JANUARY 2020 JANUARY Prepared by: McDowell Group Authors and Contributions: From NOAA-NMFS’ Alaska Fisheries Science Center: Ben Fissel (PI, project oversight, project design, and editor), Brian Garber-Yonts (editor). From McDowell Group, Inc.: Jim Calvin (project oversight and editor), Dan Lesh (lead author/ analyst), Garrett Evridge (author/analyst) , Joe Jacobson (author/analyst), Paul Strickler (author/analyst). From Pacific States Marine Fisheries Commission: Bob Ryznar (project oversight and sub-contractor management), Jean Lee (data compilation and analysis) This report was produced and funded by the NOAA-NMFS’ Alaska Fisheries Science Center. Funding was awarded through a competitive contract to the Pacific States Marine Fisheries Commission and McDowell Group, Inc. The analysis was conducted during the winter of 2018 and spring of 2019, based primarily on 2017 harvest and market data. A final review by staff from NOAA-NMFS’ Alaska Fisheries Science Center was completed in June 2019 and the document was finalized in March 2016. Data throughout the report was compiled in November 2018. Revisions to source data after this time may not be reflect in this report. Typically, revisions to economic fisheries data are not substantial and data presented here accurately reflects the trends in the analyzed markets. For data sourced from NMFS and AKFIN the reader should refer to the Economic Status Report of the Groundfish Fisheries Off Alaska, 2017 (https://www.fisheries.noaa.gov/resource/data/2017-economic-status-groundfish-fisheries-alaska) and Economic Status Report of the BSAI King and Tanner Crab Fisheries Off Alaska, 2018 (https://www.fisheries.noaa.
    [Show full text]
  • Identification of Larvae of Three Arctic Species of Limanda (Family Pleuronectidae)
    Identification of larvae of three arctic species of Limanda (Family Pleuronectidae) Morgan S. Busby, Deborah M. Blood & Ann C. Matarese Polar Biology ISSN 0722-4060 Polar Biol DOI 10.1007/s00300-017-2153-9 1 23 Your article is protected by copyright and all rights are held exclusively by 2017. This e- offprint is for personal use only and shall not be self-archived in electronic repositories. If you wish to self-archive your article, please use the accepted manuscript version for posting on your own website. You may further deposit the accepted manuscript version in any repository, provided it is only made publicly available 12 months after official publication or later and provided acknowledgement is given to the original source of publication and a link is inserted to the published article on Springer's website. The link must be accompanied by the following text: "The final publication is available at link.springer.com”. 1 23 Author's personal copy Polar Biol DOI 10.1007/s00300-017-2153-9 ORIGINAL PAPER Identification of larvae of three arctic species of Limanda (Family Pleuronectidae) 1 1 1 Morgan S. Busby • Deborah M. Blood • Ann C. Matarese Received: 28 September 2016 / Revised: 26 June 2017 / Accepted: 27 June 2017 Ó Springer-Verlag GmbH Germany 2017 Abstract Identification of fish larvae in Arctic marine for L. proboscidea in comparison to the other two species waters is problematic as descriptions of early-life-history provide additional evidence suggesting the genus Limanda stages exist for few species. Our goal in this study is to may be paraphyletic, as has been proposed in other studies.
    [Show full text]
  • Fish Assemblages Associated with Red Grouper Pits at Pulley Ridge, A
    419 Abstract—Red grouper (Epineph- elus morio) modify their habitat by Fish assemblages associated with red grouper excavating sediment to expose rocky pits, providing structurally complex pits at Pulley Ridge, a mesophotic reef in the habitat for many fish species. Sur- Gulf of Mexico veys conducted with remotely op- erated vehicles from 2012 through 2015 were used to characterize fish Stacey L. Harter (contact author)1 assemblages associated with grouper Heather Moe1 pits at Pulley Ridge, a mesophotic 2 coral ecosystem and habitat area John K. Reed of particular concern in the Gulf Andrew W. David1 of Mexico, and to examine whether invasive species of lionfish (Pterois Email address for contact author: [email protected] spp.) have had an effect on these as- semblages. Overall, 208 grouper pits 1 Southeast Fisheries Science Center were examined, and 66 fish species National Marine Fisheries Service, NOAA were associated with them. Fish as- 3500 Delwood Beach Road semblages were compared by using Panama City, Florida 32408 several factors but were considered 2 Harbor Branch Oceanographic Institute to be significantly different only on Florida Atlantic University the basis of the presence or absence 5600 U.S. 1 North of predator species in their pit (no Fort Pierce, Florida 34946 predators, lionfish only, red grou- per only, or both lionfish and red grouper). The data do not indicate a negative effect from lionfish. Abun- dances of most species were higher in grouper pits that had lionfish, and species diversity was higher in grouper pits with a predator (lion- The red grouper (Epinephelus morio) waters (>70 m) of the shelf edge and fish, red grouper, or both).
    [Show full text]
  • New Zealand Fishes a Field Guide to Common Species Caught by Bottom, Midwater, and Surface Fishing Cover Photos: Top – Kingfish (Seriola Lalandi), Malcolm Francis
    New Zealand fishes A field guide to common species caught by bottom, midwater, and surface fishing Cover photos: Top – Kingfish (Seriola lalandi), Malcolm Francis. Top left – Snapper (Chrysophrys auratus), Malcolm Francis. Centre – Catch of hoki (Macruronus novaezelandiae), Neil Bagley (NIWA). Bottom left – Jack mackerel (Trachurus sp.), Malcolm Francis. Bottom – Orange roughy (Hoplostethus atlanticus), NIWA. New Zealand fishes A field guide to common species caught by bottom, midwater, and surface fishing New Zealand Aquatic Environment and Biodiversity Report No: 208 Prepared for Fisheries New Zealand by P. J. McMillan M. P. Francis G. D. James L. J. Paul P. Marriott E. J. Mackay B. A. Wood D. W. Stevens L. H. Griggs S. J. Baird C. D. Roberts‡ A. L. Stewart‡ C. D. Struthers‡ J. E. Robbins NIWA, Private Bag 14901, Wellington 6241 ‡ Museum of New Zealand Te Papa Tongarewa, PO Box 467, Wellington, 6011Wellington ISSN 1176-9440 (print) ISSN 1179-6480 (online) ISBN 978-1-98-859425-5 (print) ISBN 978-1-98-859426-2 (online) 2019 Disclaimer While every effort was made to ensure the information in this publication is accurate, Fisheries New Zealand does not accept any responsibility or liability for error of fact, omission, interpretation or opinion that may be present, nor for the consequences of any decisions based on this information. Requests for further copies should be directed to: Publications Logistics Officer Ministry for Primary Industries PO Box 2526 WELLINGTON 6140 Email: [email protected] Telephone: 0800 00 83 33 Facsimile: 04-894 0300 This publication is also available on the Ministry for Primary Industries website at http://www.mpi.govt.nz/news-and-resources/publications/ A higher resolution (larger) PDF of this guide is also available by application to: [email protected] Citation: McMillan, P.J.; Francis, M.P.; James, G.D.; Paul, L.J.; Marriott, P.; Mackay, E.; Wood, B.A.; Stevens, D.W.; Griggs, L.H.; Baird, S.J.; Roberts, C.D.; Stewart, A.L.; Struthers, C.D.; Robbins, J.E.
    [Show full text]