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Species and Adaptations

Plant-invertebrate interactions

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Introduction to the Arctic

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The Arctic terrestrial system

The origin and development of the Arctic biome

Bryophytes

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Environmental factors, habitats and communities

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ArtsApp - Digital Key

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

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Climate change and polar invertebrates

Climate change is predicted to have a significant impact on invertebrate communities. Increases in temperature may increase development rates. This as well as changes in

Research methods and equipment

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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

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

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

Ancestors of Arctic flora and fauna

Ancestors of the Arctic flora The early Pleistocene flora is hypothesised to be derived from a combination of the former Tertiary forest elements and immigrants

Bedrock, soil development and soil disturbance

Glaciation have shaped biodiversity through time, but glaciations also greatly affects habitat and ecosystem development within landscapes. Mountain slopes above the marine limit are covered

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

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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

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

Ecosystem role of bryophytes

Bryophytes have many important ecosystem functions in the Arctic. These include: Regulation of hydrology In many habitats, bryophytes control soil and vegetation hydrology (Beringer et

Archaea

Compared to Bacteria and Eukaryotes, Archaean diversity, physiology and ecology is still very little explored. Many Archaea are extremophiles – living in extreme environments –

Biogeography of bryophytes

History The Pleistocene is the world’s recent period of repeated glaciations between 2.5 million to 11700 years ago. More than 20 cycles of glaciation occurred

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,

Fungi in Svalbard

A large number of mushroom species grow in Svalbard. Most are small, some are poisonous, while others are edible and tasty. Fungi have most of

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