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Plant-invertebrate interactions

The origin and development of the Arctic biome

Environmental factors, habitats and communities

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

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Diversity of bryophytes

Bryophytes are the second most diverse group among land plants after the flowering plants (Magnoliophyta, ~350 000 described species; Glime 2007). Defining the number of species of

Arctic – a young biome with a dramatic history

The location of the Arctic within the Earth system combined with its particular climate history, have provided unique settings for the current flora and fauna

Focus Area: Svalbard

Even though this site aims to cover the entire Arctic, the presented material concentrates on the European Arctic. In particular Svalbard which is one of the

Colonisation of Svalbard by the invertebrate fauna

The invertebrate fauna of Svalbard is relatively young. There is no evidence that invertebrates survived the last glacial maximum in situ. The islands were covered

The tricky business of identifying invertebrates

Identifying invertebrates is challenging. For many taxa you require specialised knowledge and for this reason many taxonomists focus on only a few groups. Moreover, speciment

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

Current status of freshwater systems in Svalbard

There has recently been published a summary of the available knowledge of freshwater systems in Svalbard. With permission from the authors (John E. Brittain, Ann

Collecting and observing invertebrates

There are many ways to catch invertebrates. Given the wide range of invertebrate types no one method is perfect and different techniques must be used

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Systematics of fungi

Modern fungal systematics is based upon genetic analysis. However, and structure of the hyphal cells are also important. Below you will find an overview of

Like other plants, bryophytes change between two generations with different morphology and function (heteromorphy). Unlike vascular plants, in bryophytes the haploid gametophyte (1n) is the dominating generation.

Microbial eukaryotes

Microbial eukaryotes are an evolutionary diverse group that gathers various eukaryotic organisms of often microscopic sizes, such as protist and fungi. Protists, comprise a large

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

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

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

What enviroment do microbes encounter in the Arctic?

Environmental conditions in the Arctic are highly variable in space and they can fluctuate seasonally. As for all living organisms, Arctic microbes are affected by

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

• Learning Arctic Biology •

Want to learn about Arctic terrestrial biology?​