ANNEX VCCAMLR CONVENTION AREA
PART APROHIBITION OF DIRECTED FISHING IN CCAMLR CONVENTION AREA
Target species | Zone | Period of prohibition |
---|---|---|
Sharks (all species) | Convention Area | From 1 January to 31 December 2015 |
Notothenia rossii | FAO 48.1. Antarctic, in the Peninsula Area FAO 48.2. Antarctic, around the South Orkneys FAO 48.3. Antarctic, around South Georgia | From 1 January to 31 December 2015 |
Finfish | FAO 48.1. Antarctic317 FAO 48.2. Antarctic317 | From 1 January to 31 December 2015 |
Gobionotothen gibberifrons Chaenocephalus aceratus Pseudochaenichthys georgianus Lepidonotothen squamifrons Patagonotothen guntheri Electrona carlsbergi317 | FAO 48.3. | From 1 January to 31 December 2015 |
Dissostichus spp. | FAO 48.5. Antarctic | From 1 December 2013 to 30 November 2015 |
Dissostichus spp. | FAO 88.3. Antarctic317 FAO 58.5.2. Antarctic east of 79° 20′ E and outside the EEZ to the west of 79° 20′ E317 FAO 58.7. Antarctic317 | From 1 January to 31 December 2015 |
Lepidonotothen squamifrons | From 1 January to 31 December 2015 | |
All species except Champsocephalusgunnari and Dissostichuseleginoides | FAO 58.5.2. Antarctic | From 1 December 2014 to 30 November 2015 |
Dissostichus mawsoni | FAO 48.4. Antarctic(1) within the area bounded by latitudes 55° 30′ S and 57° 20′ S and by longitudes 25° 30′ W and 29° 30′ W | From 1 January to 31 December 2015 |
Except for scientific research purposes. | ||
Excluding waters subject to national jurisdiction (EEZs). |
PART BTACs AND BY-CATCH LIMITS FOR EXPLORATORY FISHERIES IN THE CCAMLR CONVENTION AREA IN 2014/15
Subarea/Division | Region | Season | SSRUs | Dissostichus spp. catch limit (in tonnes) | By-catch catch limit (in tonnes)319 | ||||||
---|---|---|---|---|---|---|---|---|---|---|---|
SSRU | Limit | Skates and rays | Macrourus spp. | Other species | |||||||
58.4.1. | Whole Division | 1 December 2014 to 30 November 2015 | A, B, F | 0 | 724 | 50 | 116 | 100 (distribute in 20s, 20 per SSRU except the closed one (ABF) | |||
C320 | 252 | ||||||||||
D320 | 42 | ||||||||||
E | 315 | ||||||||||
G320 | 68 | ||||||||||
H320 | 42 | ||||||||||
58.4.2. | Whole Division | 1 December 2014 to 30 November 2015 | A | 0 | 35 | 50 | 20 | 20 | |||
B, C, D | 0 | ||||||||||
E (including 58.4.2_1) | 35 | ||||||||||
58.4.3a. | Whole Division | 1 December 2014 to 30 November 2015 | Not relevant | 32 | 50 | 26 | 20 | ||||
88.1. | Whole Subarea | 1 December 2014 to 31 August 2015 | A, D, E, F, M | 0 | 3 044321 | 152 | 430 | 160 | |||
B, C, G | 371 | A, D, E, F, M | 0 | A, D, E, F, M | 0 | A, D, E, F, M | 0 | ||||
H, I, K | 2 099 | B, C, G | 50 | B, C, G | 40 | B, C, G | 60 | ||||
J, L | 306 | H, I, K | 112 | H, I, K | 320 | H, I, K | 60 | ||||
J, L | 50 | J, L | 70 | J, L | 40 | ||||||
88.2. | South of 65° S | 1 December 2014 to 31 August 2015 | A, B, I | 0 | 619 | 50 | 99 | 120 | |||
C, D, E, F, G (88.2_1 to 88.2_4) | 419 | A, B, I | 0 | A, B, I | 0 | A, B, I | 0 | ||||
H | 200 | C, D, E, F, G | 50 | C, D, E, F, G | 67 | C, D, E, F, G | 100 | ||||
H | 50 | H | 32 | H | 20 | ||||||
Rules for catch limits for by-catch species per SSRU, applicable within total by-catch limits per Subarea:
| |||||||||||
Includes a catch limit of 42 tonnes to permit Spain to undertake a depletion experiment in 2014/2015. | |||||||||||
A research catch limit of 200 tonnes is set aside for a research survey in Subarea 88.2 SSRUs A and B. |
Appendix to Annex V, Part BLIST OF SMALL-SCALE RESEARCH UNITS (SSRUs)
Region
SSRU
Boundary line
48.6
A
From 50° S 20° W, due east to 1°30′ E, due south to 60° S, due west to 20° W, due north to 50° S.
B
From 60° S 20° W, due east to 10° W, due south to coast, westward along coast to 20° W, due north to 60° S.
C
From 60° S 10° W, due east to 0° longitude, due south to coast, westward along coast to 10° W, due north to 60° S.
D
From 60° S 0° longitude, due east to 10° E, due south to coast, westward along coast to 0° longitude, due north to 60° S.
E
From 60° S 10° E, due east to 20° E, due south to coast, westward along coast to 10° E, due north to 60° S.
F
From 60° S 20° E, due east to 30° E, due south to coast, westward along coast to 20° E, due north to 60° S.
G
From 50° S 1° 30′ E, due east to 30° E, due south to 60° S, due west to 1° 30′ E, due north to 50° S.
58.4.1
A
From 55° S 86° E, due east to 150° E, due south to 60° S, due west to 86° E, due north to 55° S.
B
From 60° S 86° E, due east to 90° E, due south to coast, westward along coast to 80° E, due north to 64° S, due east to 86° E, due north to 60° S.
C
From 60° S 90° E, due east to 100° E, due south to coast, westward along coast to 90° E, due north to 60° S.
D
From 60° S 100° E, due east to 110° E, due south to coast, westward along coast to 100° E, due north to 60° S.
E
From 60° S 110° E, due east to 120° E, due south to coast, westward along coast to 110° E, due north to 60° S.
F
From 60° S 120° E, due east to 130° E, due south to coast, westward along coast to 120° E, due north to 60° S.
G
From 60° S 130° E, due east to 140° E, due south to coast, westward along coast to 130° E, due north to 60° S.
H
From 60° S 140° E, due east to 150° E, due south to coast, westward along coast to 140° E, due north to 60° S.
58.4.2
A
From 62° S 30° E, due east to 40° E, due south to coast, westward along coast to 30° E, due north to 62° S.
B
From 62° S 40° E, due east to 50° E, due south to coast, westward along coast to 40° E, due north to 62° S.
C
From 62° S 50° E, due east to 60° E, due south to coast, westward along coast to 50° E, due north to 62° S.
D
From 62° S 60° E, due east to 70° E, due south to coast, westward along coast to 60° E, due north to 62° S.
E
From 62° S 70° E, due east to 73° 10′ E, due south to 64° S, due east to 80° E, due south to coast, westward along coast to 70° E, due north to 62° S.
58.4.3a
A
Whole division, from 56° S 60° E, due east to 73°10′ E, due south to 62° S, due west to 60° E, due north to 56° S.
58.4.3b
A
From 56° S 73° 10′ E, due east to 79° E, south to 59° S, due west to 73°10′ E, due north to 56° S.
B
From 60° S 73° 10′ E, due east to 86° E, south to 64° S, due west to 73°10′ E, due north to 60° S.
C
From 59° S 73° 10′ E, due east to 79° E, south to 60° S, due west to 73°10′ E, due north to 59° S.
D
From 59° S 79° E, due east to 86° E, south to 60° S, due west to 79° E, due north to 59° S.
E
From 56° S 79° E, due east to 80° E, due north to 55° S, due east to 86° E, south to 59° S, due west to 79° E, due north to 56°S.
58.4.4
A
From 51° S 40° E, due east to 42° E, due south to 54° S, due west to 40° E, due north to 51° S.
B
From 51° S 42° E, due east to 46° E, due south to 54° S, due west to 42° E, due north to 51° S.
C
From 51° S 46° E, due east to 50° E, due south to 54° S, due west to 46° E, due north to 51° S.
D
Whole division excluding SSRUs A, B, C, and with outer boundary from 50° S 30° E, due east to 60° E, due south to 62° S, due west to 30° E, due north to 50° S.
58.6
A
From 45° S 40° E, due east to 44° E, due south to 48° S, due west to 40° E, due north to 45° S.
B
From 45° S 44° E, due east to 48° E, due south to 48° S, due west to 44° E, due north to 45° S.
C
From 45° S 48° E, due east to 51° E, due south to 48° S, due west to 48° E, due north to 45° S.
D
From 45° S 51° E, due east to 54° E, due south to 48° S, due west to 51° E, due north to 45° S.
58.7
A
From 45° S 37° E, due east to 40° E, due south to 48° S, due west to 37° E, due north to 45° S.
88.1
A
From 60° S 150° E, due east to 170° E, due south to 65° S, due west to 150° E, due north to 60° S.
B
From 60° S 170° E, due east to 179° E, due south to 66° 40′ S, due west to 170° E, due north to 60° S.
C
From 60° S 179° E, due east to 170° W, due south to 70° S, due west to 178° W, due north to 66°40′ S, due west to 179° E, due north to 60° S.
D
From 65° S 150° E, due east to 160° E, due south to coast, westward along coast to 150° E, due north to 65° S.
E
From 65° S 160° E, due east to 170° E, due south to 68° 30′ S, due west to 160° E, due north to 65° S.
F
From 68° 30′ S 160° E, due east to 170° E, due south to coast, westward along coast to 160° E, due north to 68° 30′ S.
G
From 66° 40′ S 170° E, due east to 178° W, due south to 70° S, due west to 178° 50′ E, due south to 70° 50′ S, due west to 170° E, due north to 66°40′ S.
H
From 70° 50′ S 170° E, due east to 178° 50′ E, due south to 73° S, due west to coast, northward along coast to 170° E, due north to 70° 50′ S.
I
From 70° S 178° 50′ E, due east to 170° W, due south to 73° S, due west to 178° 50′ E, due north to 70° S.
J
From 73° S at coast near 170° E, due east to 178° 50′ E, due south to 80° S, due west to 170° E, northward along coast to 73° S.
K
From 73° S 178° 50′ E, due east to 170° W, due south to 76° S, due west to 178° 50′ E, due north to 73° S.
L
From 76° S 178° 50′ E, due east to 170° W, due south to 80° S, due west to 178° 50′ E, due north to 76° S.
M
From 73° S at coast near 169° 30′ E, due east to 170° E, due south to 80° S, due west to coast, northward along coast to 73° S.
88.2
A
From 60° S 170° W, due east to 160° W, due south to coast, westward along coast to 170° W, due north to 60° S.
B
From 60° S 160° W, due east to 150° W, due south to coast, westward along coast to 160° W, due north to 60° S.
C
From 70° 50′ S 150° W, due east to 140° W, due south to coast, westward along coast to 150° W, due north to 70° 50′ S.
D
From 70° 50′ S 140° W, due east to 130° W, due south to coast, westward along coast to 140° W, due north to 70° 50′ S.
E
From 70° 50′ S 130° W, due east to 120° W, due south to coast, westward along coast to 130° W, due north to 70° 50′ S.
F
From 70° 50′ S 120° W, due east to 110° W, due south to coast, westward along coast to 120° W, due north to 70° 50′ S.
G
From 70°50′ S 110° W, due east to 105° W, due south to coast, westward along coast to 110° W, due north to 70° 50′ S.
H
From 65° S 150° W, due east to 105° W, due south to 70° 50′ S, due west to 150° W, due north to 65° S.
I
From 60° S 150° W, due east to 105° W, due south to 65° S, due west to 150°W, due north to 60° S.
88.3
A
From 60° S 105° W, due east to 95° W, due south to coast, westward along coast to 105° W, due north to 60° S.
B
From 60° S 95° W, due east to 85° W, due south to coast, westward along coast to 95° W, due north to 60° S.
C
From 60° S 85° W, due east to 75° W, due south to coast, westward along coast to 85° W, due north to 60° S.
D
From 60° S 75° W, due east to 70° W, due south to coast, westward along coast to 75° W, due north to 60° S.
PART C
ANNEX 21-03/ANOTIFICATION OF INTENT TO PARTICIPATE IN A FISHERY FOR EUPHAUSIA SUPERBA
General information
Member:
Fishing season:
Name of vessel:
Expected level of catch (tonne):
Intended fishing subareas and divisions
This conservation measure applies to notifications of intentions to fish for krill in Subareas 48.1, 48.2, 48.3 and 48.4 and Divisions 58.4.1 and 58.4.2. Intentions to fish for krill in other subareas and divisions must be notified under Conservation Measure 21-02.
Subarea/Division
Tick the appropriate boxes
48.1
48.2
48.3
48.4
58.4.1
58.4.2
Fishing technique:
Tick the appropriate boxes
Conventional trawl
Continuous fishing system
Pumping to clear codend
Other method: Please specify
Product types and methods for direct estimation of green weight of krill caught
Product type
Method for direct estimation of green weight of krill caught, where relevant (refer to Annex 21-03/B)322
Whole frozen
Boiled
Meal
Oil
Other product, please specify
If the method is not listed in Annex 21-03/B, then please describe in detail
Net configuration
Net measurements
Net 1
Net 2
Other net(s)
Net opening (mouth)
Maximum vertical opening (m)
Maximum horizontal opening (m)
Net circumference at mouth323 (m)
Mouth area (m2)
Panel average mesh size325 (mm)
Outer324
Inner324
Outer324
Inner324
Outer324
Inner324
1st panel
2nd panel
3rd panel
…
Final panel (Codend)
Expected in operational conditions.
Size of outer mesh, and inner mesh where a liner is used.
Inside measurement of stretched mesh based on the procedure in Conservation Measure 22-01.
Net diagram(s):
For each net used, or any change in net configuration, refer to the relevant net diagram in the CCAMLR fishing gear library if available (www.ccamlr.org/node/74407), or submit a detailed diagram and description to the forthcoming meeting of WG-EMM. Net diagrams must include:
- 1.
Length and width of each trawl panel (in sufficient detail to allow calculation of the angle of each panel with respect to water flow.)
- 2.
Mesh size (inside measurement of stretched mesh based on the procedure in Conservation Measure 22-01), shape (e.g. diamond shape) and material (e.g. polypropylene).
- 3.
Mesh construction (e.g. knotted, fused).
- 4.
Details of streamers used inside the trawl (design, location on panels, indicate ‘nil’ if streamers are not in use); streamers prevent krill fouling the mesh or escaping.
Marine mammal exclusion device
Device diagram(s):
For each type of device used, or any change in device configuration, refer to the relevant diagram in the CCAMLR fishing gear library if available (www.ccamlr.org/node/74407), or submit a detailed diagram and description to the forthcoming meeting of WG-EMM.
Collection of acoustic data
Provide information on the echosounders and sonars used by the vessel.
Type (e.g. echosounder, sonar)
Manufacturer
Model
Transducer frequencies (kHz)
Collection of acoustic data (detailed description):
Outline steps which will be taken to collect acoustic data to provide information on the distribution and abundance of Euphausia superba and other pelagic species such as myctophiids and salps (SC-CAMLR-XXX, paragraph 2.10)
ANNEX 21-03/BGUIDELINES FOR ESTIMATING THE GREEN WEIGHT OF KRILL CAUGHT
Method
Equation (kg)
Parameter
Description
Type
Estimation method
Unit
Holding tank volume
W * L * H * ρ * 1 000
- W
tank width
Constant
Measure at the start of fishing
m
- L
tank length
Constant
Measure at the start of fishing
m
- ρ
volume-to-mass conversion factor
Variable
Volume-to-mass conversion
kg/litre
- H
depth of krill in tank
Haul-specific
Direct observation
m
Flow meter326
V * Fkrill * ρ
- V
volume of krill and water combined
Haul326-specific
Direct observation
litre
- Fkrill
fraction of krill in the sample
Haul326-specific
Flow meter volume correction
—
- ρ
volume-to-mass conversion factor
Variable
Volume-to-mass conversion
kg/litre
Flow meter327
(V * ρ) – M
- V
volume of krill paste
Haul326-specific
Direct observation
litre
- M
amount of water added to the process, converted to mass
Haul326-specific
Direct observation
kg
- ρ
density of krill paste
Variable
Direct observation
kg/litre
Flow scale
M * (1 – F)
- M
mass of krill and water combined
Haul327-specific
Direct observation
kg
- F
fraction of water in the sample
Variable
Flow scale mass correction
—
Plate tray
(M – Mtray) * N
- Mtray
mass of empty tray
Constant
Direct observation prior to fishing
kg
- M
mean mass of krill and tray combined
Variable
Direct observation, prior to freezing with water drained
kg
- N
number of trays
Haul-specific
Direct observation
—
Meal conversion
Mmeal * MCF
- Mmeal
mass of meal produced
Haul-specific
Direct observation
kg
- MCF
meal conversion factor
Variable
Meal to whole krill conversion
—
Codend volume
W * H * L * ρ * π/4 *1 000
- W
codend width
Constant
Measure at the start of fishing
m
- H
codend height
Constant
Measure at the start of fishing
m
- ρ
volume-to-mass conversion factor
Variable
Volume-to-mass conversion
kg/litre
- L
codend length
Haul-specific
Direct observation
m
Other
Please specify
Individual haul when using a conventional trawl, or integrated over a six-hour period when using the continuous fishing system.
Individual haul when using a conventional trawl, or a two-hour period when using the continuous fishing system.
Observation steps and frequency
Holding tank volume
At the start of fishing
Measure the width and length of the holding tank (if the tank is not rectangular in shape, then additional measurements may be required; precision ±0,05 m)
Every month328
Estimate the volume-to-mass conversion derived from the drained mass of krill in a known volume (e.g. 10 litres) taken from the holding tank
Every haul
Measure the depth of krill in the tank (if krill are held in the tank between hauls, then measure the difference in depth; precision ±0,1 m)
Estimate the green weight of krill caught (using equation)
Flow meter328
Prior to fishing
Ensure that the flow meter is measuring whole krill (i.e. prior to processing)
More than once per month328
Estimate the volume-to-mass conversion (ρ) derived from the drained mass of krill in a known volume (e.g. 10 litres) taken from the flow meter
Every haul329
Obtain a sample from the flow meter and:
measure the volume (e.g. 10 litres) of krill and water combined
estimate the flow meter volume correction derived from the drained volume of krill
Estimate the green weight of krill caught (using equation)
Flow meter329
Prior to fishing
Ensure that both flow meters (one for the krill product and one for the water added) are calibrated (i.e. show the same, correct reading)
Every week328
Estimate the density (ρ) of the krill product (ground krill paste) by measuring the mass of a known volume of krill product (e.g. 10 litres) taken from the corresponding flow meter
Every haul329
Read both flow meters, and calculate the total volumes of the krill product (ground krill paste) and that of the water added; density of the water is assumed to be 1 kg/litre
Estimate the green weight of krill caught (using equation)
Flow scale
Prior to fishing
Ensure that the flow scale is measuring whole krill (i.e. prior to processing)
Every haul329
Obtain a sample from the flow scale and:
measure the mass of krill and water combined
estimate the flow scale mass correction derived from the drained mass of krill
Estimate the green weight of krill caught (using equation)
Plate tray
Prior to fishing
Measure the mass of the tray (if trays vary in design, then measure the mass of each type; precision ±0,1 kg)
Every haul
Measure the mass of krill and tray combined (precision ±0,1 kg)
Count the number of trays used (if trays vary in design, then count the number of trays of each type)
Estimate the green weight of krill caught (using equation)
Meal conversion
Every month328
Estimate the meal to whole krill conversion by processing 1 000 to 5 000 kg (drained mass) of whole krill
Every haul
Measure the mass of meal produced
Estimate the green weight of krill caught (using equation)
Codend volume
At the start of fishing
Measure the width and height of the codend (precision ±0,1 m)
Every month328
Estimate the volume-to-mass conversion derived from the drained mass of krill in a known volume (e.g. 10 litres) taken from the codend
Every haul
Measure the length of codend containing krill (precision ±0,1 m)
Estimate the green weight of krill caught (using equation)
A new period will commence when the vessel moves to a new subarea or division.
Individual haul when using a conventional trawl, or integrated over a six-hour period when using the continuous fishing system.