Exploring the Earth's Boreal Forest

A sea of the darkest green, stretching unbroken from coast to coast. The continental north is dominated by this, the last great wilderness of earth. Only six tree families vie for contention here, making it among the least biodiverse of all biomes. And yet its global significance is underpinned by a third of all tree numbers, including two thirds of all conifers globally, being found here. A fifth of the biomass of the entire planet, the boreal forest is gigantic, seemingly endless, and forbidding. Pray that you have warm clothing and a knowledgeable guide. For you have stepped into the taiga. The boreal forest, or taiga, dominates the northern halves of the two northern continents – North America and Eurasia. Consisting almost exclusively of coniferous forest, it one of only two biomes so dominated by a single class of plant species – the other being grasslands. In fact the taiga is dominated by only four species families – pine, spruce, fir and larch, with some areas also featuring broadleaf aspen and birch. And so biodiversity is among the lowest of any biome. The word taiga comes to us from Russian, which is no surprise considering that large country has most of the world’s fraction of this biome. It literally means “land of the little sticks”. The other common term for the taiga is boreal forest – boreal is Latin for “northern” – as in Aurora Borealis – and so simply means “northern forest”. In the LONS08 biome classification system, the taiga comprises two types, evergreen and seasonal. Many of you will be familiar with the evergreen variety, in which coniferous species retain their leaves year round. This makes up the vast majority of taiga by area. The seasonal type, found only in NE Siberia, features mostly Siberian Larch forest which loses its leaves during the extremely cold winters there – so even conifers can be deciduous. The relationship between climate and biome is very close, as this comparison shows. It can be seen that the Koppen Subarctic climate extent mirrors that of the boreal forest biome almost exactly. The centre of the Siberian subarctic has an incursion of mixed conifer and broadleaf aspen and birch, but this is still regarded as taiga. Note that the very cold winter subarctic types overlap very closely with the seasonal taiga in NE Siberia, demonstrating this plant adaption in surviving such extreme winters. Since the subarctic and taiga biomes overlap so much, I have covered much of this material in the Subarctic video of my Secrets of World Climate series, linked top right and in the description. So I recommend you watch that in combination with this episode, since I don’t want to repeat myself on some details, such as the where in the world section. In our Holdridge Lifezones chart, we find the taiga in the third row, with forest in most of this temperature band. A type of cold rainforest is found in narrow coastal areas in Alaska and Norway, where the rainfall is very high. But most of the taiga is either somewhat wet to moderately dry, which, in combination with low evaporation rates so far north, promotes the perfect conditions for coniferous tree growth. The taiga demonstrates perfectly the principle that rainfall alone is not the sole arbiter of whether a region will be forested, scrub-like or desert. These two graphs of Siberia and the Sahel of Africa have very similar total rainfall, and yet Siberia is forested and the Sahel is near-desert, simply due to dramatic differences in evapotranspiration. So why do conifers dominate so much in this type of climate? It is simply that they are just better cold-adapted than broadleafs, having evolved much earlier in earth’s history, and consequently more experienced in surviving fluctuations in climate, as the Earth swung from ice-age to hot-house many times in its history. Conifers photosynthesise more efficiently at lower temperatures than broadleafs, and in combination with their evergreen nature, these trees to begin growth early in the spring when temperatures are favorable, rather than wasting valuable time to grow new leaves. Needles offer a smaller surface area to volume ratio than leaves, and also have a waxy coat known as a cuticle, which together makes them better at withstanding cold and dry conditions. And as we know from Christmas trees, most conifers are cone-shaped, which has a number of advantages in the subarctic climate. Firstly, this shape prevents snow building up all on the top branches that would otherwise cause them to break, but rather distributes it across the body of the tree to the ground. Secondly it allows more of the tree to receive sunlight, which is weak in the far northern latitudes. Most of the taiga is thickly forested in this way. The forest floor is dominated by moss - up a third of the ground is covered in it. Lichen, a mix of fungus and algae, is also common, covering many tree trunks. Wildflowers can also be found in certain areas, and shrubs occur in floodplains where the soil is richer. The soil is heavily acidic and as a result strongly leached of minerals. It lacks invertebrate species numbers such as earthworms and millipedes, leading to a build-up of non-decomposed matter. This thick layer causes a cooling of the soil which, in addition to the poor penetration of sunlight through the thick canopy promotes permafrost – a permanently frozen layer of soil and ice below the surface. This layer of ice acts as a barrier to groundwater drainage, and so we find a great deal of flooded land in the form of swamps and bogs. The layer of undecomposed needles on the forest floor is only cleared away by periodic fires. One would think that such a cold part of the world would not be frequented by fires. But the subarctic summers are warm and in general the climate has low rainfall, leading to often tinderbox conditions. Combined with the flammable resinous content of conifers, fires can be enormous in extent. They are so common here that it is believed that no part of the taiga has trees more than a couple of centuries old since every part of it sees a fire that destroys all in its path within that time period. One such episode, the Black Dragon Fire of 1987 straddling the border of China and Russia in the far east of Siberia is believed to have been the single biggest fire on Earth in the last few centuries. The northern extent of the taiga blends into the tundra in what is known as the lichen woodland, where the canopy of the forest is broken, allowing more light onto the forest floor where tundra-like species can grow. Further north again and there is the forest tundra, where isolated stands of trees, surrounded by tundra, have survived from warmer climatic periods in the past, protected in their isolation from the ravages of fire, and are believed to only still be in existence through non-sexual reproduction as no seeds are viable in these conditions. The southern extents blend into either mixed temperate forest in wetter regions, or grasslands in the heart of the continents where conditions are drier. So lets have a closer look at the species in the taiga. There are only six families to consider, four coniferous and two broadleaf. Pines are the most famous of all conifers and also the most widely distributed, extending all the way into the tropics as well as the North American and Eurasian taiga. The Scots Pine is the most widely distributed pine in the world, found from Scotland to the Pacific coast of Siberia. The Spruce family is also very widely distributed, occurring throughout North America and Eurasia, with the Siberian spruce (Picea obovate) covering all of Siberia from the Urals to the Pacific, although not in the same numbers as pines or larch. Firs are found on both boreal continents, and this species is most closely related to the Cedars of more temperate climates. Siberian Fir is restricted to NE Siberia, but in general firs dominate the more moist coastal forests of Alaska and Norway. The Larch family is unique among conifers in that it is deciduous. Like broadleafs, larches turn golden in autumn and drop their needles entirely in winter. In North America the most common larch is the Tamarack, while Sukaczev’s larch is common in Europe. Siberia as a whole is larch dominated, and the extreme cold winter subarctic regions of Yakutia and Sakha provinces NE Siberia are exclusively populated by Siberian larches, the hardiest of all conifers. And this is why this region receives the specific sub-biome designation of boreal seasonal forest. The two hardiest broadleaf species families are also found in the taiga. Birches, with their distinctive silver bark, can be found mixing with conifers throughout Canada and Northern Eurasia. Aspens, a species within the Poplar family that light up the autumn with fiery colour, are found in most southerly regions of the Eurasian Taiga, as well as upland parts of the Rocky Mountains of North America. In terms of fauna, the taiga is host to many large mammals such as moose, reindeer, caribou and wolves. In fact, the mammals in general here are larger than in more temperate regions, since having a larger body allows for better heat retention to survive the harsh winters. Many seasonal birds visit during the summer, and the presence of so many swamps leads to enormous populations of mosquitoes – as anyone who has visited these regions at that time will be more than happy to tell you about... In terms of threats, forestry has led to the loss of some primary forest, although this is dwarfed by the fires that reach most areas of the taiga at least every century or so. There are no major human threats due to the inhospitable climate and the sheer extent of it. Only about 0.1% of the Siberian Taiga is logged annually. But a word can be said in regard to climate change. The northern and southern boundaries of the taiga have shifted north and south over millennia as a result of warming and cooling of the planet’s climate. During the last ice age, in fact, the taiga extended as far south the Gulf of Mexico, and as we head into a warming phase now, the taiga will populate more of the tundra, and more deciduous species, especially birch and aspen, will vie with conifers in the south. Incidentally, the earth would be significantly colder if we had no taiga. This is because the boreal forest is the darkest of all biomes and this leads to more absorption of solar radiation, especially during winter, which would otherwise be white snow, reflecting heat back into space. And that is the taiga. I think I managed to get away with no mention of any tigers either. Oh no… If you enjoyed this episode, please like and share this video, and let me know your thoughts in the comments. Don’t forget to subscribe, so you don’t miss future episodes. Thanks again for watching. I’ll see you in the next episode where we finally leave the trees behind and enter the barren wastes of the tundra and ice.

A sea of the darkest green, stretching unbroken from coast to coast. The continental north is dominated by this,
the last great wilderness of earth. Only six tree families vie for contention
here, making it among the least biodiverse of all biomes. And yet its global significance is underpinned
by a third of all tree numbers, including two thirds of all conifers globally, being
found here. A fifth of the biomass of the entire planet,
the boreal forest is gigantic, seemingly endless, and forbidding. Pray that you have warm clothing and a knowledgeable
guide. For you have stepped into the taiga. The boreal forest, or taiga, dominates the
northern halves of the two northern continents – North America and Eurasia. Consisting almost exclusively of coniferous
forest, it one of only two biomes so dominated by a single class of plant species – the
other being grasslands. In fact the taiga is dominated by only four
species families – pine, spruce, fir and larch, with some areas also featuring broadleaf
aspen and birch. And so biodiversity is among the lowest of
any biome. The word taiga comes to us from Russian, which
is no surprise considering that large country has most of the world’s fraction of this
biome. It literally means “land of the little sticks”. The other common term for the taiga is boreal
forest – boreal is Latin for “northern” – as in Aurora Borealis – and so simply
means “northern forest”. In the LONS08 biome classification system,
the taiga comprises two types, evergreen and seasonal. Many of you will be familiar with the evergreen
variety, in which coniferous species retain their leaves year round. This makes up the vast majority of taiga by
area. The seasonal type, found only in NE Siberia,
features mostly Siberian Larch forest which loses its leaves during the extremely cold
winters there – so even conifers can be deciduous. The relationship between climate and biome
is very close, as this comparison shows. It can be seen that the Koppen Subarctic climate
extent mirrors that of the boreal forest biome almost exactly. The centre of the Siberian subarctic has an
incursion of mixed conifer and broadleaf aspen and birch, but this is still regarded as taiga. Note that the very cold winter subarctic types
overlap very closely with the seasonal taiga in NE Siberia, demonstrating this plant adaption
in surviving such extreme winters. Since the subarctic and taiga biomes overlap
so much, I have covered much of this material in the Subarctic video of my Secrets of World
Climate series, linked top right and in the description. So I recommend you watch that in combination
with this episode, since I don’t want to repeat myself on some details, such as the
where in the world section. In our Holdridge Lifezones chart, we find
the taiga in the third row, with forest in most of this temperature band. A type of cold rainforest is found in narrow
coastal areas in Alaska and Norway, where the rainfall is very high. But most of the taiga is either somewhat wet
to moderately dry, which, in combination with low evaporation rates so far north, promotes
the perfect conditions for coniferous tree growth. The taiga demonstrates perfectly the principle
that rainfall alone is not the sole arbiter of whether a region will be forested, scrub-like
or desert. These two graphs of Siberia and the Sahel
of Africa have very similar total rainfall, and yet Siberia is forested and the Sahel
is near-desert, simply due to dramatic differences in evapotranspiration. So why do conifers dominate so much in this
type of climate? It is simply that they are just better cold-adapted
than broadleafs, having evolved much earlier in earth’s history, and consequently more
experienced in surviving fluctuations in climate, as the Earth swung from ice-age to hot-house
many times in its history. Conifers photosynthesise more efficiently
at lower temperatures than broadleafs, and in combination with their evergreen nature,
these trees to begin growth early in the spring when temperatures are favorable, rather than
wasting valuable time to grow new leaves. Needles offer a smaller surface area to volume
ratio than leaves, and also have a waxy coat known as a cuticle, which together makes them
better at withstanding cold and dry conditions. And as we know from Christmas trees, most
conifers are cone-shaped, which has a number of advantages in the subarctic climate. Firstly, this shape prevents snow building
up all on the top branches that would otherwise cause them to break, but rather distributes
it across the body of the tree to the ground. Secondly it allows more of the tree to receive
sunlight, which is weak in the far northern latitudes. Most of the taiga is thickly forested in this
way. The forest floor is dominated by moss - up
a third of the ground is covered in it. Lichen, a mix of fungus and algae, is also
common, covering many tree trunks. Wildflowers can also be found in certain areas,
and shrubs occur in floodplains where the soil is richer. The soil is heavily acidic and as a result
strongly leached of minerals. It lacks invertebrate species numbers such
as earthworms and millipedes, leading to a build-up of non-decomposed matter. This thick layer causes a cooling of the soil
which, in addition to the poor penetration of sunlight through the thick canopy promotes
permafrost – a permanently frozen layer of soil and ice below the surface. This layer of ice acts as a barrier to groundwater
drainage, and so we find a great deal of flooded land in the form of swamps and bogs. The layer of undecomposed needles on the forest
floor is only cleared away by periodic fires. One would think that such a cold part of the
world would not be frequented by fires. But the subarctic summers are warm and in
general the climate has low rainfall, leading to often tinderbox conditions. Combined with the flammable resinous content
of conifers, fires can be enormous in extent. They are so common here that it is believed
that no part of the taiga has trees more than a couple of centuries old since every part
of it sees a fire that destroys all in its path within that time period. One such episode, the Black Dragon Fire of
1987 straddling the border of China and Russia in the far east of Siberia is believed to
have been the single biggest fire on Earth in the last few centuries. The northern extent of the taiga blends into
the tundra in what is known as the lichen woodland, where the canopy of the forest is
broken, allowing more light onto the forest floor where tundra-like species can grow. Further north again and there is the forest
tundra, where isolated stands of trees, surrounded by tundra, have survived from warmer climatic
periods in the past, protected in their isolation from the ravages of fire, and are believed
to only still be in existence through non-sexual reproduction as no seeds are viable in these
conditions. The southern extents blend into either mixed
temperate forest in wetter regions, or grasslands in the heart of the continents where conditions
are drier. So lets have a closer look at the species
in the taiga. There are only six families to consider, four
coniferous and two broadleaf. Pines are the most famous of all conifers
and also the most widely distributed, extending all the way into the tropics as well as the
North American and Eurasian taiga. The Scots Pine is the most widely distributed
pine in the world, found from Scotland to the Pacific coast of Siberia. The Spruce family is also very widely
distributed, occurring throughout North America and Eurasia, with the Siberian spruce (Picea
obovate) covering all of Siberia from the Urals to the Pacific, although not in the
same numbers as pines or larch. Firs are found on both boreal continents,
and this species is most closely related to the Cedars of more temperate climates. Siberian Fir is restricted to NE Siberia,
but in general firs dominate the more moist coastal forests of Alaska and Norway. The Larch family is unique among conifers
in that it is deciduous. Like broadleafs, larches turn golden in autumn
and drop their needles entirely in winter. In North America the most common larch is
the Tamarack, while Sukaczev’s larch is common in Europe. Siberia as a whole is larch dominated, and
the extreme cold winter subarctic regions of Yakutia and Sakha provinces NE Siberia
are exclusively populated by Siberian larches, the hardiest of all conifers. And this is why this region receives the specific
sub-biome designation of boreal seasonal forest. The two hardiest broadleaf species families
are also found in the taiga. Birches, with their distinctive silver bark,
can be found mixing with conifers throughout Canada and Northern Eurasia. Aspens, a species within the Poplar family
that light up the autumn with fiery colour, are found in most southerly regions of the
Eurasian Taiga, as well as upland parts of the Rocky Mountains of North America. In terms of fauna, the taiga is host to many
large mammals such as moose, reindeer, caribou and wolves. In fact, the mammals in general here are larger
than in more temperate regions, since having a larger body allows for better heat retention
to survive the harsh winters. Many seasonal birds visit during the summer,
and the presence of so many swamps leads to enormous populations of mosquitoes – as
anyone who has visited these regions at that time will be more than happy to tell you about... In terms of threats, forestry has led to the
loss of some primary forest, although this is dwarfed by the fires that reach most areas
of the taiga at least every century or so. There are no major human threats due to the
inhospitable climate and the sheer extent of it. Only about 0.1% of the Siberian Taiga is logged
annually. But a word can be said in regard to climate
change. The northern and southern boundaries of the
taiga have shifted north and south over millennia as a result of warming and cooling of the
planet’s climate. During the last ice age, in fact, the taiga
extended as far south the Gulf of Mexico, and as we head into a warming phase now, the
taiga will populate more of the tundra, and more deciduous species, especially birch and
aspen, will vie with conifers in the south. Incidentally, the earth would be significantly
colder if we had no taiga. This is because the boreal forest is the darkest
of all biomes and this leads to more absorption of solar radiation, especially during winter,
which would otherwise be white snow, reflecting heat back into space. And that is the taiga. I think I managed to get away with no mention
of any tigers either. Oh no… If you enjoyed this episode, please like and
share this video, and let me know your thoughts in the comments. Don’t forget to subscribe, so you don’t
miss future episodes. Thanks again for watching. I’ll see you in the next episode where we
finally leave the trees behind and enter the barren wastes of the tundra and ice.

Transcript for:Exploring the Earth's Boreal Forest

Transcript for:
Exploring the Earth's Boreal Forest