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The origin and development of the Arctic biome

Environmental factors, habitats and communities

Plant-invertebrate interactions

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Ancient DNA reveal history

DNA, like pollen, accumulate in sediments Paleoenvironmental reconstructions have traditionally been based on fossil records and pollen sequences in lake sediments. However, in the last

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

What is a fungus?

The fungal kingdom (Fungi) is related to the animal kingdom. They separated approximately 1.5 billion years ago. Like animals and plants, fungi are eukaryotes, which

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,

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

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

The endemic aphid Acyrthosiphon svalbardicum on Dryas octopetala. Image from Blomstrandhalvøya, Kongsfjord, towards Stuphallet. Photo Steve Coulson A provisional inventory of the terrestrial and freshwater

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

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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

Archaea

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

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

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

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

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

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,

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

• Learning Arctic Biology •

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