Historical evidence of the influence of climate on some commercial fish populations of the Barents and White seas Dmitry Lajus ( State University of St.Petersburg)

Slides:

Advertisements

Similar presentations

INCOFISH progress report ESTONIA Henn Ojaveer Workpackage 2, Workshop I Tallinn, 2-4 March 2006.

Advertisements

Differential Impacts of Climate Change on Spawning Populations of Atlantic cod in U.S. Waters Lisa Kerr, Steve Cadrin (UMass School for Marine Science.

Stock Assessment for Central Southern Management Area (CSMA) Striped Bass Stocks Marine Fisheries Commission Business Meeting February 11, 2011.

The Effects of Climate Change on Biological Diversity

The Prehistory of Intensive Sea Fishing Dr. James Barrett McDonald Institute for Archaeological Research.

University of Aberdeen WP 2 “Shifting baselines” Workshop Tallinn, 3-4 March 2006.

The Response of Atlantic Cod (Gadus morhua) to Future Climate Change

Climate and currents. Temperature in Kola section.

Effects of climate change on the fish stocks in the high north seas ScanBalt Academy Meeting 2010, Svalbard Recent Ecological, Biological and Medical Challenges.

1 Review Why is the ozone layer important to living things Explain What are the major types of physical and biological evidence for climate change Propose.

Opportunities for improving stock assessment Kristjan Thorarinsson Population Ecologist The Federation of Icelandic Fishing Vessel Owners.

Fisheries Case Studies Japanese Pilchard (Anchovy) Norwegian Spring-Spawning Herring Canadian Pacific Herring Canadian Atlantic Cod North Sea Cod North.

Clupeid and Gadoid Fisheries

Using Climate Information in Fisheries Stock Assessments (with a focus on Pacific Whiting) Ian Taylor SMA 550: Climate Impacts on the Pacific Northwest.

Introduction to the Circumpolar World The marine environment #2 Hreiðar Þór Valtýsson, MSc in Fisheries Biology Assistant Professor, Faculty of Business.

Catch of the Day: The State of Global Fisheries

Norwegian Russian Fish Trade By Torbjorn Trondsen Norwegian College of Fishery Science University of Tromso.

State of the Marine Environment Rainer Froese Leibniz Institute of Marine Sciences, Kiel IfM-GEOMAR

1 Spatial and Spatio-temporal modeling of the abundance of spawning coho salmon on the Oregon coast R Ruben Smith Don L. Stevens Jr. September.

Polar Marine Research Institute of Marine Fisheries and Oceanography (PINRO), Murmansk, Russia Sokolov Konstantin M. ( Head of Laboratory of Coastal Research)

Marine fish stock enhancement: status, potential and constraints.

1 BI 3063 J. Mork H08 Genetic and biologic stock management I C E S The International Council for the Exploration of the Sea

Megan Stachura and Nathan Mantua University of Washington School of Aquatic and Fishery Sciences September 8, 2012.

60º Introduction and Background ù The Barents Sea covers an area of about 1.4 x 10 6 km 2, with an average depth of 230 m. ù Climatic variations depend.

Distribution and Migration of cod, the impact of climate Geir Ottersen Institute of Marine Research, Bergen, Norway and Douglas P. Swain Department.

WP4: Models to predict & test recovery strategies Cefas: Laurence Kell & John Pinnegar Univ. Aberdeen: Tara Marshall & Bruce McAdam.

Developing a Literature Database for the North Aleutian Basin of Alaska Elisabeth Ann Stull North Aleutian Basin Information Status and Research Planning.

Investigating the Accuracy and Robustness of the Icelandic Cod Assessment and Catch Control Rule A. Rosenberg, G. Kirkwood, M. Mangel, S. Hill and G. Parkes.

WP2 and WP7 cooperation Henn Ojaveer Estonian Marine Institute, Estonia WP7 w-p, Lima, 4-7. Dec

History of Marine Animal Populations. HMAP Executive Committee Chair: Poul Holm Trinity Long Room Hub, Trinity College Dublin Andrew A. Rosenberg Institute.

Monitoring marine litter, a part of the joint Norwegian/Russian ecosystem survey in the Barents Sea Bjørn Einar Grøsvik 1, Elena Eriksen 1, Tatiana Prokhorova.

Climate System – Social System Interactions in the Northern Atlantic North Atlantic Arc project – NAArc NSF Arctic Social Sciences and ARCSS.

Potential Applications of GOES-R data to NOAA Fisheries Cara Wilson & R. Michael Laurs NOAA/NMFS Pacific Fisheries Environmental Laboratory David G. Foley.

Lecture 8: Introduction to Stock Assessment

Weever fish What the non-commercially exploited species can tell us about climate change Richard D.M. Nash 1, Audrey J.Geffen 1,2 & Henk Heessen 3 1. Port.

Spatial distribution of fish stocks in a climate perspective Nordic Climate Fish Conference 2011, Solstrand Geir Odd Johansen.

UNIT 8: Fisheries assessments. 2 Fisheries data Why do we need fisheries data? FAO (2005): “Information is critical to EAF. It underpins the formulation.

Biological and environmental factors influencing recruitment success of North Sea demersal and pelagic fish stocks Alan Sinclair Fisheries and Oceans Canada.

Fisheries in the Seas Fish life cycles: Egg/sperm pelagic larvaejuvenile (first non-feeding – critical period – then feeding) (first non-feeding – critical.

Arctic Operational Oceanography at IMR Einar Svendsen Arctic GOOS planning meeting, September 2006 at NERSC, Bergen.

OA419. Introduction to the course An interdisciplinary approach to coastal seas and shelves The class will be divided into 6 teams of 8-9 (boats, oral.

. Assessment of the Icelandic cod stock Björn Ævarr Steinarsson Marine Research Institute.

ICES Advice for 2015 – Sea bass Carmen Fernández, ICES ACOM vice-chair For Inter AC Sea bass workshop (Paris, May 26, 2015)

Summary of Atlantic Swordfish Species Working Group Discussion (see also SCI -021)

1 EEA 2007 Belgrade Report: Marine/coastal Chapter WG on Environmental Monitoring and Assessment Geneva, November 27 – 29 Eva Royo Gelabert EEA, Project.

Norwegian-Russian cooperation aimed at studying of living marine resources as a basis of sustainable fishery and conservation of the Barents Sea ecosystem.

Environmental surveys of the Nordic, North, and Barents Seas - by the Institute of Marine Research, Norway Webjørn Melle.

BI 3063 J. Mork H08 Genetic and biologic stock management GENETIC AND BIOLOGIC STOCK MANAGEMENT.

Variation in fish condition within and between populations: the effect on their productivity and management implications (Mediterranean and North Atlantic)

Impact of Climate on Distribution and Migration of North Atlantic Fishes George Rose, Memorial University, NL Canada.

Simulated data sets Extracted from:. The data sets shared a common time period of 30 years and age range from 0 to 16 years. The data were provided to.

The Fisheries Facts and Figures about Fisheries in Nova Scotia Source: D.F.O.

1 Federal Research Centre for Fisheries Institute for Sea Fisheries, Hamburg Hans-Joachim Rätz Josep Lloret Institut de Ciències del Mar, Barcelona Long-term.

Millions of Pounds Figure 1. Annual pink shrimp catch for the West coast of Florida ( ). Year of Recorded Catch 9.

Incorporation of Climate-Ocean Information in Short- and Medium Term Sprat Predictions in the Baltic Sea Acknowledgements: ICES Baltic Fish. Assess. WG.

WP6 trends in biodiversity - Review impacts - Explore trends in catch data - Explore trends in survey data - Options for assessing trends in invertebrates.

The influence of climate on cod, capelin and herring in the Barents Sea Dag Ø. Hjermann (CEES, Oslo) Nils Chr. Stenseth (CEES, Oslo & IMR, Bergen) Geir.

December 3, Fisheries & Marine Reserves. 1. Problems with fisheries. 2. Video on fisheries in New England. 3. Marine reserves - pros and cons.

1 PIRO’s Pelagic Ecosystem Management Needs PIFSC External Science Review April 5, 2016.

Day 4, Session 1 Abundance indices, CPUE, and CPUE standardisation

CPUE analysis methods, progress and plans for 2011 Simon Hoyle.

Training course in fish stock assessment and fisheries management

PRINCIPLES OF STOCK ASSESSMENT. Aims of stock assessment The overall aim of fisheries science is to provide information to managers on the state and life.

Climate Change and the Protection of Fisheries Resources in the North-East Atlantic: Role of the European Union HE Qin Department of International Public.

YELLOWEYE ROCKFISH: REBUILDING PLAN UPDATE

Capelin otolith workshop

CANADA’S RENEWABLE RESOURCES: PART 3

Blue Business in the Arctic

Ending overfishing can mitigate impacts of climate change

Presentation transcript:

Historical evidence of the influence of climate on some commercial fish populations of the Barents and White seas Dmitry Lajus ( State University of St.Petersburg) Julia Lajus, Alexey Kraikovsky, Zoya Dmitrieva, Daniil Alexandrov ( European University at St.Petersburg RUSSIA Influence of Climate Change on North Atlantic Fish Stocks, Bergen, May 2004

HISTORY OF MARINE ANIMAL POPULATIONS (HMAP) (part of Census of Marine Life Project, Sloan Foundation) To use historical data for extracting biologically significant information Use of data for pre-statistical period (before end of 19 th century) for studying dynamics of fish populations: Problems: - little information on circumstances of fishing (for instance, no data about recruitment, little data on fishing effort etc.); - gaps in data series, - often uncertain reliability of data Advantages: - potential for obtaining long-term data series, - in pre-statistical period fish populations were not affected by overfishinig, pollution, habitat degradation etc.

Data source: recent findings from 17 th and 18 th centuries in clostrial and state archives of Moscow, St.Petersburg, Arkhangelsk.

Day of July 1770 Salmon caught Date Number Poods&foonts [weight]

Data source: recent findings from 17 th and 18 th centuries in clostrial and state archives of Moscow, St.Petersburg, Arkhangelsk. Only data sets which allow us to account for fishing effort, i.e. to analyse catch per unit effor (CPUE) have been selected. Two cases: Fisheries of Solovetsky monastery for cod and halibut at Kildin Island, 18 th century. Fisheries for Atlantic salmon in the White and Barents sea basins, th century.

Kildin Island and scheme of main currents and fish migrations in the Barents Sea Kildin Island

Fishing for cod & halibut at Murman coast by hook and line

Сod and halibut сatches (metric tonns/boat per year) at fisheries of Solovetsky monastery, Kildin Island autocorrelations: lag=1, n=22, r=0,52 (p=0,013) lag=2, n=21, r=0,36 (p=0,104)

Atlantic salmon fisheries in the basins of the White and Barents seas, th centuries

Life cycle of Atlantic salmon in the Russian North

Ancient stone drawing of salmon fishery White Sea area, 6-7 thousand years ago

Salmon fishing gear: weir at Onega River, middle of 19 th c

garva Salmon fishing gear ostroga

Studied Atlantic salmon fisheries

0 0,5 1 1,5 2 2, Onega River Vyg River Varzuga RIver Western Murman Catches of Atlantic salmon, number 0,5 1,5 2, Autocorrelations: lag=1, n=29, r=0,31, (p=0,101) lag=2, n=24, r=0,51, (p=0,010)

Significant autocorrelations tell as about non-random changes in catches. What are potential reasons of such changes? Variation in migration patterns, and therefore, in availability for coastal fisheries (cod and halibut) consequence: - negative correlation with temperature without lag-period (?) Variation in recruitment, and therefore, in abundance of adult fish consequences: - positive correlation with temperature with some lag - about ten years for cod and halibut and about five for salmon; - positive correation with abundance of other populations from the north of the distribution range; - negative correlation with populations from south of species’ distribution range

Correlation of obtained data with available relevant literature time-series for th centuries our data literature time-series Sources: Iceland temperatures (Bergtharssen, 1969), Greenland temperatures (Bol’sheianov, 2000), Norwegian herring and cod landings (Qiestad, 1994) Introduction of lags gives similar results Assessments of confidential levels accounted for autocorrelations

Catches and weight of Atlantic salmon in the Varzuga district 2,5-3,0 kg 6,3 kg in average 11,5 kg in average, Indera River, n=33

Location (fishing place) Number of fish caught Weight (poods) as appear in document Average weight (kg) BelkovaiaBol`shaia VelikaiaIzba Indera River PoplavnaiaRendoga KharovnaiaRendoga Kicha (Kitsa) River Chavanga River Strelka (Strel`nia) River Gremiachaia MalaiaOgorodnaia Number and weight of salmon, caught by Solovetsky Monastery at various fishing places in Varzuga district in 1763 ( Reference: RGADA. F Op. 5. D L. 9 back -13 back)

Conclusions Historical data show: - non-random year-to-year variation in catch sizes of cod & halibut and Atlantic salmon; - large variation in average weight of Atlantic salmon in different years. In absence of antropogenic influences these changes must be explained by variation of natural environmental conditions. Likely, catches per unit effort of cod & halibut and Atlantic salmon in th centuries are positively associated with temperature changes