Woodland Watch Week 21 – 7/08/2013

Another week has gone by and we’re getting closer and closer to the end of summer. Keeping everything crossed for a late summer/early autumn heatwave as i’m just not ready for autumn yet!!!

So, what’s been going on in the woods this week? One of the creatures we haven’t touched upon yet is the butterflies, but the meadows around the wood and the wood itself have been swarming with all sorts of butterflies this year. The main reason I’ve not mentioned them is because try as I might to get a photograph of any of them, i’ve not been particularly successful! The iPhone is wonderfully portable and easy to take photos with but it’s not really set up for fleeting glimpses of fluttering butterflies taken from several metres away!

So, this photo was the best I managed to get and i’m sure you’ll agree it’s not a lot of help! It does lend itself to a good game of “spot the butterfly” though!

Butterfly in the meadow approaching the field which I can only describe as "little brown butterfly"!!!

Butterfly in the meadow approaching the field which I can only describe as “little brown butterfly”!!!

According to Butterfly Conservation, “three-quarters of British butterflies are in decline and many moths are also facing an uncertain future.The 56 species in Britain and Ireland are under threat today from unprecedented environmental change”.

It has been lovely to see so many butterflies around this year, but it is still worrying that they are decreasing so rapidly. So why are butterflies important besides the fact that the y look pretty fluttering around during the summer months? The butterfly conservation website has a great section on “Why Butterflies and Moths Matter” and i’ve pasted a short exert below:

Ecosystem value

  • Butterflies and moths are indicators of a healthy environment and healthy ecosystems.
  • They indicate a wide range of other invertebrates, which comprise over two-thirds of all species.
  • Areas rich in butterflies and moths are rich in other invertebrates. These collectively provide a wide range of environmental benefits, including pollination and natural pest control.
  • Moths and butterflies are an important element of the food chain and are prey for birds, bats and other insectivorous animals (for example, in Britain and Ireland, Blue Tits eat an estimated 50 billion moth caterpillars each year).
  • Butterflies and moths support a range of other predators and parasites, many of which are specific to individual species, or groups of species.
  • Butterflies have been widely used by ecologists as model organisms to study the impact of habitat loss and fragmentation, and climate change.

There’s also a great butterfly and moth identification tool on their website

http://butterfly-conservation.org/50/identify-a-butterfly.html

Last week we saw the conkers forming on the horse chestnut trees, this week we’re looking at the hazel for signs of autumn approaching. These hazel nuts are appearing fast on the coppiced hazel throughout the woodland and will ripen over the coming months.

Unripe hazel nuts

Unripe hazel nuts

Once ripe, these hazelnuts will fall out of the husk, which generally happens around 7-8 months after pollination. These nuts still have a way to go yet before they are ready to be harvested, but unfortunately not all species are as patient as we are as we’ll look at next week!

As you’ve probably noticed by now i’m a forager by nature! No walk in the countryside is complete without picking something to eat along the way! So, I couldn’t resist a few hazlenut recipes to get you thinking while the nuts ripen!

How about this amazing looking chocolate and hazelnut cake:

chocolate_and_hazelnut_38207_16x9

check out the recipe at http://www.bbc.co.uk/food/recipes/chocolate_and_hazelnut_38207

Or this gorgeous Italian hazelnut and chocolate torte:

torte

Recipe at http://www.bbcgoodfood.com/recipes/9727/italian-hazelnut-and-chocolate-torte

So, moving back to the woodlands and away from chocolate recipes that are making my tummy rumble! We’ll keep an eye on the hazelnuts over the autumn and watch them as they ripen ready to eat.

This week I had a bit of a closer look around the stems of some of the mature oak trees. Last week we looked at one of the trees with a lot of burrs, this week we’re going to take a look at another growth habit known as epicormic growth.

In many woody species, epicormic buds lie dormant underneath the bark , their growth  suppressed by hormones produced by active shoots higher up the tree. Under certain conditions, these dormant buds are activated resulting in epicormic growth as you can see here on the oak trees around the wood:

Epicormic shoots on the stem of one of the mature oak trees

Epicormic shoots on the stem of one of the mature oak trees

Epicormic shoots are the means by which trees regrow after operations such as pruning, or in the case of some species, pollarding/coppicing. This is why it is possible to cut some species back to just a trunk or even to ground level and the tree will re-shoot and continue to grow healthily. While a lot of species have epicormic buds, many others don’t such as many conifer species. This is why it is possible to pollard a willow and it will re-grow but if you carry out the same operation on a conifer it will not. Only species with strong epicormic growth abilities can be pruned in this way.

Continuing through the wood and out the other side into the neighbouring meadow I couldn’t help but stop for a look around the hedgerow. Native hedgerows are a forager’s heaven, often containing fruits, nuts and edible flowers all within easy reach for picking. Its easy to see why small mammals, birds and insects thrive in the hedgerow habitat and why it is so important that we conserve our native hedgerows.

My mind is already planning ahead to autumn recipes and where better to begin than the blackberry? The flowers of the blackberries came out earlier in the year and now in many places the fruits themselves are starting to form as tight little hard green berries.

Blackberry flowers and the beginnings of fruit production

Blackberry flowers and the beginnings of fruit production

Blackberries are perennial plants (living for more than 2 years) with biennial stems which grow from the perennial root system (taking 2 years to complete their life cycle. In the first year, the new stem grows vigorously to its full length of around 3-6m, generally trailing along thr ground or any other support structure it can find, bearing large palmate leaves.

In its second year, the cane does not grow any longer, but instead produces flowering lateral stems from the main stem which have smaller leaves. Both the stem and lateral shoots are covered in sharp prickles.

Canes can be trained when cultivated, however wild blackberries usually form a tangle of dense arching stems, with the branches rooting from the node tip on many species once they reach the ground. The flowers are produced in late spring and early summer with 5 white or pale pink petals. Drupelets then form around ovules that are fertilised by the male gamete from a pollen grain.

I’m looking forward to returning from my walk with a basket of blackberries in the autumn ready for jam and pudding making!

So, that’s it for another week and another walk in the woods. Apologies for the slight delay in getting these blogs written! Its such a busy time of year for tree surgeons and we’re just battling to keep on top of everything!

We hope you’re enjoying your walks in the woods and seeing everything continue to change as we approach the autumn.

See you next week!

Woodland Watch – Week 12 – 05/06/2013

This week, I decided to focus on the coppice. There’s such a lot going on in the woodland at the moment now that the weather has finally warmed up, but over the last 11 weeks we have takes a lot about the “coppice woodland” and never really elaborated on what this means.

So, here we go. Lets go for a walk in the woods and take a look at one of the earliest forms of woodland management.

Coppicing is a traditional method of woodland management which takes advantage of the fact that many trees produce new growth from the stump or roots if they are cut down. Coppice stools have multiple stems growing out of previously cut stools which arise from dormant buds on the stool. The resulting structure looks like this.

Regrowth from a coppice stool

Regrowth from a coppice stool

Most frequently coppiced species are oak, hazel, ash, willow, field maple and sweet chestnut. In this woodland, most of the coppice is hazel but management has lapsed and many of the stools are in need of management to bring them back into the coppice cycle.

Stools such as this one have been allowed to regrow for too long.

Old coppice stool in need of recoppicing

Old coppice stool in need of recoppicing

Coppicing allows for the production of a large quantity of fast growing, sustainable timber products without the need for replanting. Although trees can be grown from seed, coppicing allows the tree to regrow from a fully established root system.

Different species respond differently to coppicing. Some species such as alder and beech coppice poorly, while species such as hazel and willow respond very well, quickly sending up vigorous, straight growth which can be utilised in a range of ways.

Most notable in this woodland is the way that the coppice affects the general feel of the woodland area. In traditional broad leaf woodland, the canopy is usually quite high and the understorey more sparse than in a coppice woodland. Here, especially now that the leaves are out, there is much more vegetation at eye level than you would usually find in non-coppiced woodlands.

Looking up through the coppice canopy

Looking up through the coppice canopy

We have said before that the structure of this woodland is “coppice with standards”. This means that there is a coppice understorey with scattered larger standard trees. These standards need to be sufficiently spaced apart to avoid shading the coppice.

The standards in this woodland are primarily oak and horse chestnut, however in some areas these trees have been allowed to grow too large and too close together and the coppice understorey has disappeared, out competed and overshadowed by the larger standards.

Hopefully, some of these lapsed coppice stools can be brought back into a coppice cycle in the near future.

If you would like to learn more about the fascinating history of coppicing which dates back to neolithic times, take a look at these links:

http://smallwoods.org.uk/our-work/woodland-products/a-brief-history-of-coppicing/

http://jncc.defra.gov.uk/pdf/pubs93_Coppicedwoodlands.pdf

Join us again next week for a walk in the woods.

http://www.tree-creeper.com