Zooplankton Ecology

We carry out research in aquatic ecology studying food web transfer of micronutrients as well as adaptations among plankton to climate change and exposure to ultraviolet radiation or anoxic conditions.

Research projects

Field sampling  at the LMO field station in the Baltic Sea
Field sampling at the LMO field station in the Baltic Sea. Link to: LMO field station Emil Fridolfsson

Transfer of pigments and vitamins in the aquatic food web

Some top predators in the Baltic Sea suffer from deficiency syndromes that are thought to be caused by low levels of pigments and vitamins. These substances are produced by bacteria and phytoplankton and are transferred by zooplankton to fish and birds. The overall aim of this project is to understand the factors regulating the transfer of these micro-nutrients between trophic levels and to explore possible links between these processes and deficiency syndromes in top predators.

We perform both field samplings and experimental studies. Pigments and vitamins are quantified with high performance liquid chromatography (HPLC). For more information about the project please visit the project database.

Transfer of vitamins and pigments
Martin Brüsin

How are plankton communities affected by climate change?

There is little doubt that climate change is happening but we do not know how biodiversity, biogeochemical processes, and ecosystem services will be affected.  The overarching aim of this project is to bridge current knowledge gaps regarding consequences for community composition and the ability of species to adapt and cope with increased temperatures associated with global warming.

Zooplankton UVR-defenses

Exposure to ultraviolet radiation (UVR) has changed rapidly due to ozone thinning during the last decades. This raises concern of increasing radiation damages on DNA and other cellular structures. Zooplankton use a set of fascinating defense mechanisms to minimize these damages. The primary defenses we have studied are vertical migration and accumulation of UV protective compounds. Some taxa avoid the surface of the water column to reduce the exposure whereas other taxa accumulate so called photo-protective compounds. These compounds include pigments such as melanin and carotenoids and sunscreens such as mycosporine-like amino acids (MAAs).

Pigmented zooplankton
Zooplankton increase their carotenoid pigmentation when exposed to ultraviolet radiation. Carotenoids are strong antioxidants which are thought to be beneficial to the animal. But pigmented animals are easily spotted by fish and are thus more exposed to predation. Martin Brüsin

Our research projects are funded by:

FORMAS, Carl Trygger Foundation, The Crafoord Foundation, Royal Swedish Academy of Sciences, Magnus Bergvalls stiftelse, Naturvårdsverket, JGI - Joint Genome Institute.

Staff

Field studies and expeditions

Seasonal sampling in the Baltic Sea

Within the framework of EEMiS (Linnaeus University Centre for Ecology and Evolution in Microbial model Systems) we sample in the Baltic Sea for vitamins and pigments once a month east of Öland, Sweden at a sampling site called the Linnaeus Microbial Observatory (LMO). A large set of background parameters are also collected from this site.

Sampling at the LMO sampling site
Sampling is performed every second week (or once a month) throughout the whole year at the LMO sampling site Anders Månsson

Field sampling on the west coast of Sweden

To compare vitamin and pigment production in different systems (marine and brackish) we also sample in The Gullmar Fjord on the Swedish west coast (with help of a scholarship from Sven Lovén Centre for Marine Sciences and KVA).

Seasonal variation in sunscreens and pigments in Arctic zooplankton

In collaboration with the Arctic program at DTU-AQUA (Copenhagen), Samuel Hylander participated in field trips with the research ship Porsild at the Arctic Station in Greenland during spring 2012. Samplings were performed over a spring-summer period and sunscreens in zooplankton were tightly correlated with ice-out and UVR exposure but the response was species specific (see publications).

Field sampling for zooplankton onboard Porsild
Field sampling for zooplankton onboard Porsild. Samuel Hylander

Research expedition to Antarctica 2010

Samples during this expedition were collected from both freshwater and marine systems. Lakes with permanent ice in the Dry Valley area close to McMurdo, Antarctica were sampled for zooplankton and background parameters. Then marine field sampling and experimental studies were performed onboard the Swedish icebreaker Oden on its way from McMurdo to Chile. Among many results, data revealed a surprisingly high biodiversity of zooplankton in the Dry Valley lakes and efficient UVR-protective adaptations among marine zooplankton (see publication list).

Iceberg off the coast of Antarctica
Iceberg off the coast of Antarctica. Samuel Hylander
Field sampling in the Dry Valley lakes
Challenging field sampling in one of the Dry Valley lakes Lars-Anders Hansson
Field sampling in the Dry Valley lakes
Sven Lidström

Teaching

Two students doing field course
Freshwater field course
1 2

Freshwaters are under many kinds of threats such as eutrophication, contamination and water extraction. All over the world, clean water and flourishing lakes are environmental objectives of high priority. Linnaeus University has a strong profile in aquatic ecology with courses in freshwater ecology, marine ecology and fish ecology. There is also a master's program in aquatic ecology. During these courses we go out on field trips to study how aquatic systems function and are structured. During the freshwater field course we spend several days in a beautiful area close to Hultsfred where we study several streams and lakes.