To address the effect of various identification methods on krill biomass estimates, comparison on the swarm-based and dB-difference (Sv120kHz-Sv38kHz) identification method were made using the acoustic data collected around the South Shetland Islands in Subarea 48.1 by the Chinese fishing vessel F/V Fu Rong Hai during the 2019 Area 48 survey. Identification window of swarm-based template were set to four ranges including [-20 20], [2 16], [0.4 12] and without dB window (only 120kHz used). Identification window of dB-difference method were set to [2 16] and [0.4 12] respectively. Distributions of estimated krill densities were statistically compared using significance test and geometric linear regression. Pairwise comparison indicated that there were significant differences among biomass estimated from various identification methods, except for the estimates from [-20 20] identification window and without dB window (only 120kHz used). Geometric linear regression analysis also confirmed the same conclusion.
Abstract:
Biomass (B0) of Antarctic krill for CCAMLR Division 58.4.1 in 2018/19 was preliminarily estimated as 4.349 million ton (CV=54.8 %) based on the swam based method using data obtained by Kaiyo-maru. The point estimate was comparable with the estimate in 1996 by BROKE (4.83 million ton with CV=17 %). However, they can not be compared directly because (1) biomass estimation methods were different, (2) timing of the surveys were different (Kaiyo-maru survey commenced about 40 days earlier than BROKE) and (3) areal coverages were different primary because of difference of positions of sea ice edge especially in the western part of the Division. The CV of biomass estimate of Kaiyo-maru survey was high primary because the spatial distribution of biomass densities was highly heterogeneous. The swarm based method potentially includes non-krill echoes but also excluding aggregations of krill which are smaller than size of swarm set in the Echoview template used in this analysis. Comparison with B0 estimated by the dB difference method is necessary before producing finial B0 in Division 58.4.1 in 2018/19.
Abstract:
We compare supervised, using the interactive software Echoview™, and unsupervised, using python, processing of acoustic data collected during the UK cruise DY098. The same data processing procedures are applied in both methods, and we show that the unsupervised method comes up with a similar estimate of krill NASC and krill density as the supervised method. An estimate of krill density is supplied for the WCB survey using three methods. The multifrequency method produces a krill density of 8.60 gm-2, compared with 21.76 gm-2 (supervised) or 20.41 gm-2 (unsupervised).
There is no abstract available for this document.
Abstract:
SG-ASAM are invited to consider provide further recommendations for improving this fishing vessel data collection program and provide advice on
the timing and frequency for conducting acoustic transects;
the methods for the data transmission to the Secretariat including the use of EchoExplore to provide a meta-data catalogue of the data and
whether to have acoustic data transferred to the Secretariat as complete (raw) acoustic data files for processing and/or analysis products (e.g. from the EchoViewR protocol agreed at SG-ASAM).
Aerial photography is widely accepted as a useful method for monitoring penguins in Antarctica, but there are concerns about the disturbance it causes to penguins in the process. Since 2016, aerial photography using unmanned aerial vehicles (UAVs) has been carried out by Korean scientists to count Adélie penguins’ nests at Cape Hallett, but the impact of using this method on breeding penguins has not been investigated. An annual survey should be conducted to determine the population size of Adélie penguins in this area, because Cape Hallett was designated as a new site for the Ecosystem Monitoring Program (CEMP) of the Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR) in 2018. In order to obtain suitable images for counting the number of nests and mitigate disturbances derived from UAV operation, we compared the difference of the penguins’ behavioral responses to UAVs’ approaches by flight altitude and type (hexacopter and quadcopter). Based on penguins’ responses to visual approaches and noises of UAVs, we hereby suggest 50 m and 100 m as minimum flight altitudes for quadcopters and hexacopters, respectively, when monitoring penguins.
Abstract:
Our study presents some initial findings on Hg distribution in Antarctica from our preliminary field work, collecting environmental samples including coastal seawater, snow and snowmelt as well as terrestrial and marine biota samples. Long-term monitoring studies are crucial to better understand how Antarctic environments respond to globally reducing Hg emission with the Minamata Convention becoming effective. Further, Antarctic organisms sensitive to climate change need to be included as part of CEMP. Previous studies on Hg dynamics in Antarctica are limited and existing information is somewhat fragmented. Therefore, our goal is to add to the existing information and build a framework for long term monitoring program in this vulnerable and remote ecosystem.
There is no description / abstract available for this document.
There is no description / abstract available for this document.