Strong winds have dispersed blue-green algae surface blooms in inland waters and at sea
The blue-green algae situation in lakes is calm considering the time period. Even in sea areas, blue-green algae have only been detected in subsurface layers in the eastern Gulf of Finland. However, warm and calm weather may further enhance the development of blue-green algae blooms.
Link to the map
Map of the national blue-green algae monitoring observations on week 32
More in Finnish
Voimakkaat tuulet ovat hajottaneet sinilevän pintakukintoja sisävesillä ja merellä
Syke observes the cyanobacteria occurrence as part of the monitoring of the state of the environment in Finland
The national cyanobacterial monitoring is carried out as part of the monitoring of the state of the environment in cooperation with the Centres for Economic Development, Transport and the Environment, municipal environmental and health authorities, and the Finnish Environment Institute (Syke). Finnish Rotary Clubs are also actively involved in nationwide cyanobacterial monitoring.
The cyanobacterial monitoring is based on the monitoring of cyanobacterial deposits in surface water. The intention is to provide an overview of the cyanobacterial situation in different water bodies. The monitoring includes about 400 permanent observation sites across the country on inland and coastal waters and in the archipelago.
Information on the cyanobacterial situation in the open sea areas is mainly obtained from satellite images, but also from the Finnish Border Guard, the marine research vessel Aranda, the optical device located at the Utö Atmospheric and Marine Research Station, as well as cruise and merchant ships (MS Finnmaid and MS Silja Serenade) equipped with Alg@line measuring equipment. The drift forecasts for cyanobacterial rafts in open sea areas are prepared in cooperation with the Finnish Meteorological Institute's Maritime Services.
Syke reports on the national cyanobacterial situation on a weekly basis every Thursday from the beginning of June until the end of August. The weekly algal reporting was launched in 1998.
Several compounds produced by cyanobacteria can cause health hazards
According to the Finnish Institute for Health and Welfare (THL), cyanobacterial occurrences can cause health hazards. Cyanobacteria produce a number of different compounds that can cause symptoms. Some cyanobacteria can produce liver or nerve toxins, but most of the symptoms experienced by swimmers may also be due to other compounds.
Small children and pets should particularly be kept out of water rich with cyanobacteria. Water with cyanobacteria should not be used in a sauna or as washing or irrigation water.
If you suspect a poisoning, seek medical advice, or take the pet to a veterinarian. If necessary, the Poison Information Centre will provide additional instructions.
The municipal health authorities monitor the cyanobacterial situation on beaches.
More information about blue-green algae and health:
- At the the Finnish Institute for Health and Welfare (THL) website
- At the Poison Information Center website
Report your cyanobacterial observations to the Järvi-meriwiki (Lake and sea wiki)
In Järvi-meriwiki, maintained by the Finnish Environment Institute, you can establish your own observation site and share cyanobacterial observations or make individual observations when moving around waterways. You can also report observations via the smartphone-friendly Havaintolähetti website.
The reported observations are shown on the national cyanobacterial observation map, and they support the national algal situation assessment. Observations about the absence of cyanobacteria are also important.
Järvi-meriwiki is an online service produced in collaboration with authorities and citizens. The service provides basic information on all lakes larger than one hectare as well as different areas of the Baltic Sea. Users can share, for example, photos and other observations on the service.
Municipalities and cities monitor the cyanobacterial situation on the beaches, so it is advisable to report rich cyanobacterial occurrences on beaches to the health authorities of the municipality in question.
This is how you identify cyanobacteria
A small amount of cyanobacteria in the water appears as green or yellowish particles. Narrow stripes of algae can drift to a beach. In calm weather, a substantial amount of cyanobacteria forms greenish or yellowish algal rafts and piles up in coastal water. In spring, yellowish pollen from coniferous trees may also be present in the water. Unlike cyanobacteria, pollen is found not only on the surface water but also, for example, on piers or yard furniture.
Cyanobacteria dissolve into tiny particles in the water if you touch the algal mass with a stick. If the algae become attached to the stick, they are something other than cyanobacteria. In a water vessel, cyanobacteria rise to the surface as tiny greenish particles within about an hour.
- Read more: How do you recognize blue-green algae?
Cyanobacterial observations also in the MarineFinland.fi and Waterinfo.fi services
The cyanobacterial maps presented on the websites MarineFinland.fi and Waterinfo.fi combine the observations reported to the Järvi-meriwiki and from the beaches of the City of Helsinki, as well as the observations based on satellite interpretations made by Syke during the last three days.
Keywords
Contacts
Inquiries about blue-green algae situationTelephone 1 pm to 3 pm
Lakes: Tel +358 50 5734 347 or +358 295 251 326
State of the Baltic Sea: Tel +358 50 5693 297 or +358 295 251 314
Satellite observations: Tel 358 50 4707 576 or +358 295 251 329, e-mail: Eotuki@syke.fi
Tytti JuustiCommunications Intern
Tel:+358 295 252 323firstname.lastname@syke.fiEija JärvinenCommunication Specialist
Tel:+358 295 251 242firstname.lastname@syke.fiImages
Links
It is time to move beyond solving environmental problems one by one, to systemic sustainability transformations. The Finnish Environment Institute (Syke) contributes to building a sustainable society through research, information and services. The Finnish Environment Institute is a research institute with 700 experts and researchers located in Helsinki, Oulu, Jyväskylä and Joensuu.
Subscribe to releases from Suomen ympäristökeskus
Subscribe to all the latest releases from Suomen ympäristökeskus by registering your e-mail address below. You can unsubscribe at any time.
Latest releases from Suomen ympäristökeskus
Väitös: Pahamaineiset sinilevälajit hyödyntävät kevätkukinnan jälkeistä fosfaattia oletettua vähemmän19.11.2024 08:30:00 EET | Tiedote
Rihmamaiset sinilevälajit, joista osa on myrkyllisiä, hyödyntävät kevätkukinnasta jäljelle jäävää fosfaattia oletettua vähemmän. Tähän tulokseen päädyttiin Mari Vanharannan väitöskirjassa, joka tarkastetaan 22.11.2024. Väitöskirjassa tutkittiin kevätkukinnan jälkeisen planktonyhteisön kykyä hyödyntää ylijäämäistä fosfaattia. Ylijäämäisen fosfaatin ja sinileväkukintojen välisen yhteyden ymmärtäminen on tärkeää sinileväkukintojen riskiarvioiden laatimisessa ja Itämeren rehevöitymisongelman hallitsemisessa.
Fosforläckaget från jordbruket kan minskas med hjälp av strukturkalk och jordförbättringsfiber som uppkommer som biprodukter i industrin14.11.2024 07:50:00 EET | Pressmeddelande
Användning av strukturkalk och jordförbättringsfiber som jordförbättringsmedel minskade erosion från åkrarna enligt en färsk studie. Därmed minskade också belastningen av fosfor på hav, sjöar och vattendrag. Belastningen från tillrinningsområdet minskade med omkring tio procent. På enstaka åkrar sjönk fosforhalterna i vattnet som rinner ut via täckdikena med upp till 70 procent. Strukturkalk och jordförbättringsfiber förbättrar markens struktur, vilket minskar läckaget från åkrarna till vattendragen. Studien visade också att skörden kan bli bättre. Effekterna av jordförbättringsmedel undersöktes för första gången för stora tillrinningsområden på över 100 hektar.
Maatalouden fosforikuormaa vesiin voidaan vähentää teollisuuden sivutuotteina syntyvillä rakennekalkilla ja ravinnekuidulla14.11.2024 07:45:00 EET | Tiedote
Rakennekalkin tai ravinnekuidun käyttö pellolla maanparannusaineena vähensi uuden tutkimuksen mukaan kiintoaineen kulkeutumista pelloilta ja siten myös kiintoaineeseen sitoutuneen fosforin kuormitusta vesiin. Fosforikuorma valuma-alueelta väheni noin kymmenen prosenttia. Yksittäisillä pelloilla salaojavesien fosforipitoisuudet laskivat jopa 70 prosenttia. Rakennekalkki ja ravinnekuitu parantavat maan rakennetta, jolloin huuhtouma pelloilta vesiin vähenee. Tutkimus osoitti myös sadon paranemista. Maanparannusaineiden vaikutuksia vesistökuormitukseen tutkittiin ensimmäistä kertaa laajoilla, yli 100 hehtaarin valuma-alueilla.
Policy Brief: Limiting sulphate load of wastewaters calls for environmental quality standards7.11.2024 07:55:00 EET | Press release
The clean energy transition and the green transition are bringing mining and battery technology industries to Finland. As a result, sulphate discharges into inland waters and the Baltic Sea will increase. Sulphate also has beneficial effects in water bodies, and it is not currently classified as a harmful substance. However, a high local load may adversely affect aquatic organisms, especially in lakes with a naturally low sulphate concentration. In its new Policy Brief, the Finnish Environment Institute issues recommendations for reducing the harmful effects of the sulphate load in wastewaters.
Politiikkasuositus: Jätevesien sulfaattikuorman rajoittamiseksi tarvitaan ympäristönlaatunormit7.11.2024 07:45:00 EET | Tiedote
Siirtyminen puhtaaseen energiaan ja vihreä siirtymä ovat tuomassa Suomeen kaivostoimintaa ja akkuteknologiateollisuutta. Tämän seurauksena jätevesien sulfaattikuorma sisävesiin ja Itämereen kasvaa. Sulfaatilla on vesistöissä myös hyödyllisiä vaikutuksia, eikä sulfaattia nykyisin luokitella haitalliseksi aineeksi. Suuri paikallinen kuorma voi kuitenkin vaikuttaa haitallisesti vesieliöstöön etenkin järvissä, joissa sulfaattia on niukasti. Suomen ympäristökeskuksen uusi Policy Brief -julkaisu antaa suosituksia jätevesien sulfaattikuorman haittojen vähentämiseksi.
In our pressroom you can read all our latest releases, find our press contacts, images, documents and other relevant information about us.
Visit our pressroom