Résultats de la recherche

1. Version 2023 du Manuel de l'observateur scientifique pour les pêcheries de poissons

   Femelles Stade de maturité Description F1. Immature Ovaires petits, fermes, pas d'ovocytes visibles ... et d'autre de l'arête centrale. Stade de maturité Description F1. Immature L'ovaire est invisible ... ou juste derrière les otolithes, pour F1 F2 F3 16 pouvoir les extraire. À quelques ...

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2. Méthodes standard du CEMP

   (i) PART II: STANDARD METHODS FOR MONITORING ENVIRONMENTAL PARAMETERS Part II: Method F1 – Sea-ice cover ...

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3. Rapport de pêcherie : Dissostichus eleginoides îles Heard (division 58.5.2)

   à la palangre Campagne d'évaluation 85 694 - f1 - Lieu de chalutage B 442 f2_s1 f2_s2 f2_s3 Lieu ...

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4. Rapport de pêcherie : Dissostichus eleginoides île Heard (division 58.5.2)

   à la palangre Campagne d'évaluation 85 694 - f1 - Lieu de chalutage B 442 f2-s1 f2-s2 f2-s3 Lieu ...

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5. Méthodes standard du programme de contrôle de l’écosystème de la CCAMLR

   DES PARAMÈTRES DE L'ENVIRONNEMENT PARTIE II : Méthode F1 – Couverture de glace de mer vue du site du CEMP ...

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6. 2013 Report on bottom fisheries and vulnerable marine ecosystems

   + f1A1 + f2A2,+ … Impact index = A0F0 + f1 A1F1 + f2 A2F2 + … where: A0 = area of the standard ... –1) f1 = frequency (0–1) of non-standard scenario 1 A1 = area of the footprint associated with ... scenario 1 F1 = fragility within the scenario 1 footprint. 25. Units are in km2 of seabed area per km of ... -10/33). The presumed relationship between lateral longline movement frequency f1 and depth in WG-FSA ...

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7. Report on bottom fisheries and vulnerable marine ecosystems

   , as follows: Footprint index = A0 + f1A1 + f2A2,+ … Impact index = A0F0 + f1 A1F1 + f2 A2F2 ... the standard impact footprint (range 0–1) f1 = frequency (0–1) of non-standard scenario 1 A1 = area ... of the footprint associated with scenario 1 F1 = fragility within the scenario 1 footprint. 26 ... longline movement frequency f1 and depth in WG-FSA-10/31 was not used; f1 = 0.5 was applied to all sets ...

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8. Report on Bottom Fisheries and Vulnerable Marine Ecosystems

   + f1 A1F1 + f2 A2F2 + … where: A0 = area of the standard footprint (km2 of seabed area per km of line ... ) F0 = fragility within the standard impact footprint (range 0–1) f1 = frequency (0–1) of non-standard ... scenario 1 A1 = area of the footprint associated with scenario 1 F1 = fragility within the scenario 1 ... presumed relationship between lateral longline movement frequency f1 and depth in WG-FSA-10/31 was not ...

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9. Report on Bottom Fisheries and Vulnerable Marine Ecosystems

   index = A0 + f1A1 + f2A2,+ … Impact index = A0F0 + f1 A1F1 + f2 A2F2 + … where: A0 = area of the ... (range 0–1) f1 = frequency (0–1) of non-standard scenario 1 A1 = area of the footprint associated with ... scenario 1 F1 = fragility within the scenario 1 footprint; ... 25. Units are in km2 of seabed area per ... process (WG-EMM-10/33). The presumed relationship between lateral longline movement frequency f1 and ...

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10. WG-SAM-10/20

    + f1 A1F1 + f2 A2F2 + … where: Ao = area of the standard footprint (km2 per km of line); Fo ... ); f1 = frequency (0-1) of non-standard scenario 1; A1 = area of the footprint associated with ... scenario 1; F1 = fragility (0-1) of VME taxa within the scenario 1 footprint; ... etc,. Units are in ...

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