- Front page
- About HELCOM
- Vacancies
- Contact us
- The Helsinki Convention
- Ministerial Declarations
- Ministerial Meeting 2013
- Recommendations
- Baltic Sea Action Plan
- Groups
- Projects
- Publications
- Press office
- Meetings and Documents
- Manuals and guidelines
- Assessments and indicators
- Shipping
- The marine environment
- Data and maps
-
Temporal development of Baltic coastal fish communities and key species in Inner Holmön
 |
||||
|
|
|
||
|
||||
Return to main indicator fact sheet
Key Message
Temperature and Secchi depth are important structuring factors for coastal fish communities. In the inner monitoring area at Holmöarna, these parameters show no significant trends.
Only one coastal fish indicator have changed significantly during the monitoring period. Mean age of a Perch (Perca fluviatilis) decreased significantly. This could be due to increased growth rate, leading to younger individuals growing big enough to be caught in sampling nets in combination with increased reproductive success in recent years.
Background and oceanographic information
The islands of Holmöarna are located in the Northern Quark about 7 km from the Swedish coast. The Northern Quark forms a 10-20 meter shallow sill between the Bothnian bay and the Bothnian Sea. The bedrock consists of granite and is relatively plain. Moraine deposits and ridges cover large areas and create an underwater landscape with a great variation in depth. A more than 40 meter deep abyss separates Holmöarna from the Swedish mainland. The monitoring area is shallow, seldom reaching depths below 10 meters. The salinity is between 3-4 PSU.
Figure 1. Temperature and Secchi depth in the inner monitoring area at Holmöarna. No significant changes occurred during the period.
Local pressure
There are no known local discharges and the opinion is that Holmöarna is a minor extent affected by the mainland. Seal appear regularly in the area.
Results and assessment
The indicators used below and their relevance for conveying developments in the environment are described in the main indicator fact sheet on Temporal development of Baltic coastal fish communities and key species.
Community indicators
Number of species
Figure 2. Number of species, divided into freshwater, marine and migratory species in the inner monitoring area at Holmöarna. The number of species caught depends on many factors such as salinity, habitat heterogeneity, temperature and exposure to the open sea of the area sampled. The number of species usually decreases with decreasing salinity as marine species disappear and the fish communities become more dominated by freshwater species.
Total biomass
Figure 3. Total biomass (mean per station in kg) in the inner monitoring area at Holmöarna. Total biomass fluctuates strongly during the monitoring period and no significant changes occur Total biomass is strongly affected by changes in Perch biomass (see below biomass of key species indicators). Total biomass is used as an index of the size of the standing stock. Increased biomass indicates increased nutritional conditions and production potential, whereas decreased biomass indicates the opposite.
Species diversity
Figure 4. Shannon Wiener diversity index in the inner monitoring area at Holmöarna. No significant changes occur during the period. The Shannon Wiener index reflects the species richness and equitability of the community. Increasing values indicate increasing numbers of species with even proportion in the catch. Decreasing values indicate few dominating species and a community with a small number of species. Calculations are based on the biomass proportion of each species.
Slope of size spectrum
Figure 5. Slope of size spectrum in the inner monitoring area at Holmöarna. No significant changes occur during the period. The slope of the size spectrum reflects the length distribution of the fish community. Recruitment variations, extensive size selective fishing, as well as a change in species composition in the fish community could affect the slope. Decreasing values indicate decreasing numbers of larger individuals.
Average trophic level of catch
Figure 6. Average trophic level of coastal fish in the inner monitoring area at Holmöarna. No significant changes occur during the period. Increasing values indicate that the proportion of species at higher trophic levels, e.g., piscivorous fish, increases and/or that the plankton- and benthos-feeding species decreases.
Key species indicators
The key species at Holmöarna monitoring area is Perch (Perca fluviatilis), a warm water dwelling freshwater species that dominates the catches in the area.
Species biomass
Figure 7. Perch biomass (mean per station in kg) in the inner monitoring area at Holmöarna. No significant changes occur during the period. Perch biomass strongly affects the total biomass (see above biomass of community indicators). Species biomass is an index of the size of the standing stock. Biomass changes reflect changes in external driving forces such as productivity, temperature and in some cases fishery.
Mean age
Figure 8. Mean age of a Perch in the inner and outer monitoring area at Holmöarna. A significant trend in mean age is driven by low ages after 2001. Mean age reflects the age distribution in the stock. It is affected by reproductive success and mortality rate (fishing pressure and predation).
Mortality
Figure 9. Mortality of Perch in the inner and outer monitoring area at Holmöarna. No significant changes occur during the period. Mortality of Perch is expressed as percent annual decrease, based on the mortality of individuals that are 3-5 years old. Increased mortality indicates increased fishing, predation or mortality due to other causes.
Mean length
Figure 10. Mean length of Perch in the inner monitoring area at Holmöarna. No significant changes occur during the period. Mean length in Perch reflects the length distribution in the fish stock and is affected by variation in recruitment, extensive size selective fishing and changed individual growth rate.
Slope of size spectrum
Figure 11. Slope of size spectrum of Perch in the inner monitoring area at Holmöarna. No significant changes occur during the period. The slope of the size spectrum reflects the length distribution of the fish population and is affected by e.g. individual growth rate, recruitment success and/or size selective fishing.
Methods used
Fishing with coastal survey nets (mesh sizes 17, 22, 25 33 and 50 mm from knot to knot) was performed annually at five stations. The stations were repeatedly fished for three times in early August.
A new method was introduced in 2002, which included a new survey net, Nordic coastal multi mesh gillnet (mesh sizes 10, 12, 15, 19, 24, 30, 38, 48 and 60 mm from knot to knot). 30 randomly selected stations, divided into several depth intervals are annually fished once in August. Data from the new method is not included in the indicator fact sheet.
References
Söderberg, K., G. Forsgren och M. Appelberg 2004. Samordnat program för övervakning av kustfisk i Bottniska viken och Stockholms skärgård – utveckling av undersökningstyp och indikatorer. Finfo 2004:7, 1–90.
Links
Swedish Board of Fisheries; Institute of Coastal Research
Return to main indicator fact sheet
For reference purposes, please cite this indicator fact sheet as follows:
[Author’s name(s)], [Year]. [Indicator Fact Sheet title]. HELCOM Indicator Fact Sheets 2007. Online. [Date Viewed], http://www.helcom.fi/environment2/ifs/en_GB/cover/.
Last updated: 2007-12-13