Southern Hawker

Southern hawker dragonfly

This southern hawker dragonfly, Aeshna cyanea, was hawking around by a sheltered path through the woodland at RHS Harlow Carr Gardens but obligingly perched on a rhododendron leaf, allowing us to photograph it. This is a male, distinguished by the three blue-spotted segments at the tip of its abdomen.

Woodland at Harlow Carr

A nuthatch calls insistently as we take the path behind the Doric Temple.

Rhododendron

These twisted trunks remind me of old olive trees, but I think that they’re Rhododendrons.

Sequoia bark

Giant Sequoia bark has a spongy texture, which acts as insulation in forest fires. Much as I like sequoias, I’m sorry to hear that large plantations of them are being planted on some Welsh hillsides: this might be an efficient way of taking carbon dioxide out of the atmosphere but it won’t do a lot for another key environmental problem, the loss of biodiversity.

Ness Island

WE WALK along the towpath beside the Caledonian Canal for a lunch break at the café at the Floral Hall then return to the centre of town via the footbridges to Ness Islands. I draw the standing waves at the upstream tip of the first island. It’s like sitting at the prow of a ship. Anglers stand waist deep in the river.

Giant Sequoia

At the downstream end of the second, longer island, there’s a large Wellingtonia or Giant Sequoia, Sequoiadendron giganticum, with drooping lower branches which make an effective umbrella when there’s a passing shower.

The reddish bark feels slightly spongy which must provide effective insulation from winter frosts and from the forest fires that occasionally sweep through the tree’s native habitat on the western slopes of the Sierra Nevada in California.

Each leaf scale is 2 or 3 millimetres long

Looking up into the branches (top photograph) it appears as if the tree has long slender needles like a pine or fir but if you look closely the leaves are scale-like, as seen in this photograph of a dry twig (they’re green when fresh) that I’ve taken with a low-power microscope.

The Top of the Tree


Sequoias can grow to 50 metres but how tall is this specimen?

I made a rudimentary clinometer using my hand lens (which hangs on a loop of string) as my plumb-line to establish the vertical and the long edge of my sketchbook, held to my eye, to point at the top of the tree, marking the vertical across the inside back cover of the sketchbook.

I measured the distance to the tree as 76 lengths of my hiking boots and added another four lengths to get me near the centre of the tree, which was probably an underestimate. Because the ground fell away sharply at one side I was unable to measure the girth of the trunk.

By drawing out the angle to the horizontal and the baseline distance to scale (right), I can measure the height as 96 hiking boot lengths so that’s 96 x 34 centimetres (they’re big boots, but very lightweight!); that’s 3264 cm, making the Sequoia approximately 32.64 metres tall, about 107 feet.

Errors include the gentle slope of the ground down to the river and my eye being about 1.8 metres above ground level but those two probably cancel each other out. Also from such an oblique angle I couldn’t actually see the top of the tree.