• Learning Arctic Biology •

Want to learn about Arctic terrestrial biology?

Video: Tina Dahl and Marcos Poricres

• Browse by topic •

Fungi

Birds and mammals

Environmental factors, habitats and communities

Introduction to the Arctic

Invertebrates

Plant-invertebrate interactions

The Arctic terrestrial system

Species and Adaptations

Vascular plants

The origin and development of the Arctic biome

Bryophytes

Microbes

• Digital Tools •

360° Virtual Field Guides

Explore a variety of locations and learn about its biology, history and more. All in 360 degrees!

ArtsApp - Digital Key

A digital key for Svalbard’s flora, with specific keys for vascular plants and grasses.

View more digital tools…

Read about...

Ecosystem functions of invertebrates

The group invertebrate contains a great diversity of taxa and groups; from hard-bodied insects to soft bodied organisms such as worms. Given this diversity it

The invertebrate fauna of Svalbard

When thinking of animals on Svalbard you first perhaps think of the big cuddly ones, the reindeer, fox or the marine animals including polar bears,

What are bryophytes?

Evolutionary origin Bryophytes belong to the embryophytes, which include all land plants. Evidence from structural, biochemical, and molecular data supports the view that bryophytes and all

Arctic Freshwater Habitats

The arctic freshwater environment experienced dramatic climatic shifts during the Holocene (10,000 years ago to present) and Pleistocene, which has had enormous effects on the

Definition of the Arctic and main study system

The Arctic is named after the northern star constellation “Arktos”—Greek for “bear”. It consists of the Arctic Ocean and surrounding landmasses. Depending on the definition

Succession gradients

In Arctic marginal environments, successional pattern deviates from the classical model for directional change and replacement of species (Matthews 1978; Svoboda & Henry, 1987). Under

Microbiology in the Arctic

Since the turn of the previous century, when Arctic explorers began to return samples of microbes for culture and study, our understanding of the microbiology

Bryophytes as environmental indicators

Many bryophyte species are very sensitive to certain environmental conditions – both naturally occurring and imposed by anthropogenic activity. Bryophytes are used as indicators and

No more articles to show

Bryophyte habitats

Bryophytes are found throughout the world from the harsh environments of Antarctica to the lush conditions of the tropical rainforests. Despite their small size, they

Parasitic fungi

Parasitic and pathogenic fungi obtain their nutrition from other living organisms, and have a negative effect upon the individuals – hosts – they are parasites

Fungi in the Arctic Environment

Fungi are heterotrophic organisms feeding by osmotrophy. Their ecology can be divided into saprotrophs, parasites and mutualists. However, transitions exist between all these groups. Most

Bryophyte adaptations and constraints

Bryophytes are very resilient and have a unique ability to recover from long-lasting extreme environmental conditions (La Farge et al. 2013, Procter et al. 2007). Bryophytes

Saprotrophic fungi

Saprotrophic fungi degrade dead organisms or their remains, such as litter or dung. Depending on their mode of breaking down cellulose or lignin, we recognise

Bacteria

Bacteria are the major drivers of the Earths biogeochemical cycles, and therefore very important components of the ecosystems. There are estimations showing that more than

Viruses

What is a virus? Viruses are infectious agents that replicate exclusively within a living cell. Viruses can infect all types of organisms, from animals and

Mutualistic fungi

Mutualistic fungi live on other organisms, however in contrast to parasitism, mutualism benefits all involved organisms. The fungi get nutrition, mainly carbohydrates, from their partners,