Shropshire Botanical Society Newsletter Spring 2013, No. 26 by Shropshire Botanical Society

Shropshire Botanical Society Newsletter Spring 2013

Anacamptis morio Green-winged Orchid (Pennerley meadows), by Ruth Dawes May 2012

Shropshire Botanical Society Newsletter No.26 Contents

Page

Society Matters Obituary of Miss Beryl Davies Field Visits 2013 Tree Moss Climacium dendroides in Shropshire BSBI Threatened Plant Survey and the Green-winged Orchid The Genus Sphagnum a Guide Part 3: Sphagnum fallax and S. angustifolium Aston Locks off-line reserve â&#x20AC;&#x201C; a tale of change Upland Mires Understanding Prees Heath The Ramblings of a Shropshire Naturalist EA Wilson List of Members (with renewal dates)

3 3 4 5 8 11 15 19 23 31 32

Contacts Newsletter Editor: Mags Cousins, Bagbatch, Inwood, Church Stretton, SY6 6LA. Tel. 01694 722215, email: mags@bagbatch.co.uk Secretary: John Handley, 7 St. Nicholas Crescent, Bridgnorth, WB15 5BN. Tel. 01746 761174, email: johnhandley11@gmail.com Membership Secretary: Mark Duffell, 19 Compton Mews, Ford, Shrewsbury, SY5 9NX. Tel. 01743 851084, email: ms.duffell@btinternet.com Field Meetings Co-ordinator: Fiona Gomersall, 4 Lower Down, Lydbury North, SY7 8BB. Tel. 01588 680693, email: fiona@eadstudio4.co.uk Vice county Recorder: Sarah Whild, 9 Albert Street, Shrewsbury, SY1 2HT. Email: S.J.Whild@bham.ac.uk

Past copies of the newsletter are available as pdfs from the Shropshire Botanical Society website: http://www.bsbi.org.uk/shropshire.html Any opinions expressed in this newsletter are those of the various authors, and are not necessarily those of the Society. 2

Society Matters Mags Cousins After a cold and soggy winter we have lots of articles to get you fired up to venture outside at the earliest opportunity and a range of field visits to enjoy this year. Committee news: John will be stepping down as secretary in April, many thanks to him for his sterling efforts to keep us organised. As always if anyone is interested in helping the Bot Soc by joining the committee, with or without a nominal task, please show yourselves! We were sad to hear Beryl Davies, a keen recorder in Shropshire, has passed away aged 93 and also of the sudden and untimely death of two SBS members. Nick Musgrove of the University of Wolverhampton was primarily an ornithologist but knew the ecology of the Long Mynd well and most members will have read of the death of Danny Beath, the wildlife photographer who had attended SBS meetings in recent years. Our condolences to all their families.

Spring Meeting and AGM Saturday 13th April 2013, 2-4 pm At Preston Montford Field Studies Centre, Montford Bridge, Shrewsbury, SY4 1DX. After dispensing with the essential business with unseemly speed, we will get straight into our opening talk to herald in a glorious summer of botany: Dr Simon Caporn from Manchester Metropolitan University will be talking on “Sphagnum Recovery and Restoration in the Southern Pennines”

Obituary of Miss Beryl Davies - 1919 – 2012 Ruth Dawes Beryl Davies was born in 1919 at Weston Rhyn. She attended Moreton Hall School where she enjoyed hockey and tennis. She then trained as a shorthand typist and worked for Monsanto. In 1943 she took up work as a radio operator in the WAF. She was a self contained lady and enjoyed travel but returned to Gobowen in the 1970s to look after her mother. She remained there until entering Woodland Residential Home in Morda in 2006 after having a fall. She was fond of cats, dogs and wildlife and was a good botanist and accomplished artist, making sketches of what she found. She was a long term member of Border Field Club and the Wild Flower Society and provided botanical records for both the “Shropshire Flora” and the “Montgomeryshire Flora”. Miss Davies was actively recording in Shropshire mainly in the early 1980s and always kept a keen eye on any waste ground, especially around Gobowen railway station. She provided the county’s first record of Setaria viridis Green Bristle-grass in Gobowen in 1983 and found Descurainia sophia Flixweed in an Oswestry pavement in 1984. Although Miss Davies had no transport, she recorded plants around Gobowen and Weston Rhyn right up until 1999, finding Asplenium ceterach Rustyback at Bronygarth and Heracleum mantegazzianum Giant Hogweed at Gobowen in that year. She died peacefully aged 93 years on 29 October 2012 after living an independent and interesting life. 3

Field Visits 2013 Everyone is welcome to join us on the outings but do contact the leader to book and check arrangements. Caynham Camp, Ploughnhill Farm, nr Ludlow, Sat. 11th May. Hill Fort, ancient woodland with Paris quadrifolia Herb Paris and interesting grassland with Potentilla argentea Hoary Cinquefoil. Also section of Ledwyche Brook. Meet at 11am, Ploughnhill Farm, Grid Ref SO539736. Contact: Fiona Gomersall, 01588 680693, mob 07964 485222, Fiona@eadstudio4.co.uk. Onslow Fm, near Ford, Sun 2nd June. A recording visit to the Churncote/Onslow Estate. The area has not been extensively botanised previously, expect woods, pools and parkland. Meet at 11.00hrs, Preston Montford Field Centre car park, Grid Ref SJ433143, we will then combine cars and travel to the farm as a group. Contact: Mark Duffell, 01743 851084, mob 07821031358, msduffell@btinternet.com Badger Dingle, Sat. 15th June. It would be good to rediscover Cystopteris fragilis Brittle Bladder-fern, Osmunda regalis Royal Fern, Serratula tinctoria Saw-wort and Vicia sylvatica Wood Vetch. Meet at 11am, park by the pools in Badger, Grid Ref SO767995. Contact: John Handley, 01746 761174, mob 07977 095124 Wyre Forest NNR, Sat. 13th July. Meet at 11am, at the Forestry Commission Earnwood car park at Grid Ref SO743784 on B4194 near Button Oak. Share cars and drive into forest via FC roads. Note will need to lock the FC gate, so it's an 'all day' meeting. Cars will get a bit dusty or slightly muddy! Lunch needed but two walks, so we can have lunch at cars. Finish at about 4.30pm. Contact: John Bingham, jb8dcb@btinternet.com Sweat Mere and Crose Mere SSSI, Cockshutt, Sun. 14th July. Fascinating variety of wetland habitats with lots of interesting species including Cladium mariscus Great Fen-sedge and Sagina nodosa Knotted Pearlwort. Meet at 11.00hrs at Colemere car park, Grid Ref 435328. Weâ&#x20AC;&#x2122;ll share cars from there, park at Whattall Farm and walk to the site, likely to need wellies. Contact: Chris Walker, chriswalker3@btinternet.com Brown Moss SSSI, nr Prees Heath Sat. 27th July. As part of the rare plant monitoring that we carry out for Natural England and Shropshire Council, a search for Luronium natans Floating Water-Plantain, Littorella uniflora Shoreweed, Oenanthe fistulosa Tubular Water-dropwort and Carex oederi Small-fruited Yellow-sedge. Meet at 11.00hrs, at the main car park, Grid Ref SJ564393. Contact: Sarah Whild, S.J.Whild@bham.ac.uk Aston Hall, near Queenâ&#x20AC;&#x2122;s Head, Oswestry, Sat 14th Sept. A private estate with lovely grounds, not well recorded. Juncus subnodulosus Blunt-flowered Rush known to be there. Meet at 11.00hrs, Grid Ref SJ324278. Contact: Mark Duffell, 01743 851084, mob 07821031358, msduffell@btinternet.com 4

Tree Moss Climacium dendroides in Shropshire Lisa Barlow Lists of axiophytes, or ‘worthy’ plants (including bryophytes) are a useful tool for measuring habitat quality. Being often difficult to identify or requiring a microscope, bryophytes can be overlooked as potential axiobryophytes, so when selecting a species it is important that it is readily identifiable. Climacium dendroides or Tree Moss is arguably one of the easiest British bryophyte species to identify with its treelike form evident in a photograph. The status and potential axiophyte value of Climacium dendroides in Shropshire was the title of a dissertation submitted to the University of Birmingham in 2012 for an MSc in Biological Recording; Collection and Management. In order to assess the axiophyte value of Climacium dendroides in Shropshire, historic records were downloaded from the National Biodiversity Network Gateway (NBN, 2012) and aerial maps used to select sites where up-to-date distribution data could be gathered. The field survey was carried out from October 2011 to March 2012 at 40 of the 46 known sites for Climacium dendroides in Shropshire and records requested locally via the Botanical Society Newsletter. The resulting data was analysed to assess the current status of Climacium dendroides in Shropshire and the association between its presence and the conservation importance of the sites at which it occurs. The study found the species to have been only ever recorded in 23 hectads in Shropshire, making it at most a ‘widespread’ rather than ‘ubiquitous’ species according to the British Bryological Society criteria and a ‘local’ species occurring in 12 hectads in Shropshire since the year 2000. Losses of Climacium dendroides appear to have occurred at the following sites in Shropshire in the last 100 years:       

Photo by Alan Boardman

Marton Pool Earl’s Hill Brown Moss Llanhowell Farm Lawley Marehay farm Hope Coppice

Further losses appear to have occurred over 100 years ago at 13 sites in Shropshire. At many of these sites there has been a change of land use since the last record. For example at Betton Pool where intensive agriculture and fishing have altered the gradient of the bank which gives Climacium the fluctuating water level it often prefers. Other sites have been planted with conifers or turned over to arable production.

Climacium dendroides appears to have a localised distribution in Shropshire, with small and vulnerable, apparently single sex populations, but is difficult due to a lack of historical abundance data to record a decline at these sites. Sinker recorded Climacium dendroides as ‘frequent’ at Crosemere in 1962, where during the 2012 survey only one small population was seen on a tussock. Where Climacium grows in Shropshire, sites are mainly base rich and of good habitat quality. The car park at Sweeney Hall Hotel was the most surprising site found with thanks to a record from Dan Wrench. It is of course possible that with a low level of recording, historic records could be concentrated in nature reserves.

SJ 9

SO 1

The distribution map shows apparent losses of Climacium dendroides at the monad scale in Shropshire before (grey) and since (yellow) 1912. Post 2000 records, including those made during the survey are shown in black. According to the BSBI criteria, an axiophyte should occur in fewer than 25% of a county’s hectads and be at least 90% restricted to sites of conservation importance. Climacium dendroides could therefore be a suitable axiobryophyte in Shropshire

because it is easily identifiable, is 92.77% restricted to sites of conservation importance in Shropshire and occurs in fewer than 25% of the countyâ&#x20AC;&#x2122;s hectads. This study was limited by the low level of historic recording and highlights the need for the collection of accurate biological records to ensure the sustainability of populations. I would like to take this opportunity to thank Alex Lockton and Sarah Whild for their support in producing this piece of work, members of the Botanical Society for kindly sharing their records with me and the Field Studies Council at Preston Montford. For further information, records or a PDF of the study please contact lisajbarlow_3@hotmail.com.

References Lawley, M. (2003) An annotated checklist of the bryophytes of Shropshire [online]. Available from: http://rbg-web2.rbge.org.uk/bbs/Bryodiversity/vc40/CHLIST%20%202012.rtf [Accessed 10 Feb 2012]

Sinker, C.A. (1962) The North Shropshire Meres and Mosses a background for ecologists. Field Studies Council. National Biodiversity Network Gateway (2012) Grid map records on the Gateway for TreeMoss (Climacium dendroides). [Online] Available from: http://data.nbn.org.uk/gridMap/gridMap.jsp?allDs=1&srchSpKey=NHMSYS0000309639 [Accessed 1 Nov 2012]

BSBI Threatened Plant Survey and the Green-winged Orchid Ruth Dawes The Green-winged (or Green-veined) Orchid was originally named as Orchis morio by Linnaeus, but was re-classified as Anacamptis morio by Bateman, Pridgeon and Chase in the 21st century due to information from molecular studies. It is a dumpy little plant with unspotted leaves and usually purple flowers with green veins in the upper tepals. It is strongly associated with old, unimproved, neutral to calcareous, species-rich MG5 meadows with an open sward, with an optimum habitat of damp pasture on clay. Other habitats include dry lime-rich grassland and well-drained sand and gravel. Sadly, this lovely species suffered a dramatic decline in the 20th century due to changes in agricultural practice. In some areas, it is now just as likely to be found on stabilised dunes, village greens, churchyards, golf courses and lawns as traditional habitat is lost. Anacamptis morio tolerates mowing and grazing, but not shade and does not grow at higher altitudes above c300 metres. It is now a mainly southern species in the UK, but older records show that it formerly grew north to Morecambe Bay. Seeds germinate in the autumn and the species is favoured by wet winters and springs. Plants also reproduce vegetatively from underground tubers. In Shropshire, the Green-winged Orchid still occurs in all the major habitats, including dry well-drained limestone grassland in the Oswestry uplands, unimproved neutral hay meadows in the south of the county, scattered damp pastures on clay and in a meadow creation plot on sand and gravel south east of Shrewsbury. Older records show that this species was once widespread in the county. In the 1800s and early 1900s there were records from all parts of the county, often collected by venerable Reverend gentlemen, from Alkmund, Glopa near Oswestry, Highley, Linley, Rushbury to Whitchurch, just to name a few. Unfortunately, many of our old records only show presence, but not abundance. â&#x20AC;&#x153;Rev W Phillips described it as plentiful in the meadows around Rushbury in 1904 and in the same year W E Thompson referred to them being very abundant in the alpine meadows of south Shropshire.â&#x20AC;? So how many there were on these widespread county sites we can only guess. 2012 was the third year I had assisted with the BSBI Threatened Plants Project (TPP) in Shropshire (and Montgomeryshire) and this time it was the turn of the Greenwinged Orchid to be checked out and recorded. The TPP involves some detailed paperwork - recording numbers of plants, associate species, area, management of site, perceived threats and commenting on abundance or lack of species. Capricious weather conditions, mainly the dry spring, delayed and discouraged flowering in some locations, particularly on the dry limestone, which meant more than one visit to most sites. Flowering times varied from end of April on the dry light sandy soil at lowland Venus Pool and south facing dry banks in the Oswestry uplands to three weeks later up on the hay meadows of the Stiperstones. As usual, when we return to old sites that we remember as good spots, visits were bitter sweet. There were joys and sorrows to rediscover. Virtually all the sites I visited, except the Venus Pool Bird Reserve, are smallholdings, with retired owners, who are not actively farming. Most are let to 8

tenants for grazing and many of the landowners and tenants have dropped the traditional hay mowing due to difficulties of using machinery in small steep fields. Most previously recorded sites have experienced a drop in flowering plant numbers. Sadly, one site, which had been managed sympathetically by a previous caring landowner, was now found to have been burnt to destroy encroaching scrub. Another classic site, just over the Welsh border, where I had excitedly discovered over 100 flowering specimens in the 1990s has rapidly declined to nil this century due to inadequate and inappropriate grazing regimes, despite advice, help and financial aid from government bodies. Fortunately, there was good news too. Little known sites in both north and south Shropshire turned up where the species was flourishing in up to treble figures under the control of hard-working and caring owners. In addition, at a meadow creation site on Venus Pool Bird Reserve near Cross Houses, owned by Shropshire Ornithological Society, the Green winged Orchid is currently flourishing. This land was previously an arable field on well drained light sandy soil. After hay strewing (from Little Stocking Meadows, Oreton) on the east side of reserve in 2001 a handful of Green-winged Orchids started to appear on an annual basis in the sandy soil and quickly increased into hundreds. The plants spread naturally into adjacent grassland to the north west and on the TPP survey in 2012 Allan Dawes and I were delighted to count c1248 flowering spikes on 6 May. Ian Trueman and his assistant counted 1056.5 in 2011!. The meadow on this lowland site is traditionally managed with both mowing and aftermath grazing by cattle. Individual species are abundant, but not dominant, on this well managed site, but meadow creation involves a lot of work, knowledge, faith and more. The dry spring may well have affected numbers on the dry steep limestone sites of the Oswestry uplands. However, there were other problems on these various sites, for example: an increase in shading; Cirsium arvense Creeping Thistle cover indicating unwelcome signs of enrichment (due to cattle congregating); plus supplementary hay feeding in hard winters with bales containing coarser dominant species from other parts of the site; and rolling to suppress bracken at flowering time which also flattened thousands of cowslips. The small number (4 in 2012) of Green-winged Orchid in hay meadows on the Stiperstones are just holding their own, but are not spreading and increasing. Some other sites were only ever known to have maximum numbers in single figures so their outlook is not good. It is impossible to draw scientific conclusions from just one yearâ&#x20AC;&#x2122;s survey of erratic orchid species, particularly with the changing weather patterns which have occurred over the last two years. However, I have to report that 6 of the 10 sites I visited have experienced a serious decline in numbers, 3 of these sites showing a nil return this year. Sadly, this appears to mirror the national trend of decline in traditional hay meadow sites. These orchids survive due to traditional farming methods and caring landowners. What does the future hold for these smallholdings? Letâ&#x20AC;&#x2122;s hope we can find a positive way forward. The only current site that has shown a serious increase in numbers is the meadow creation site at Venus Pool. I trust they will continue to flourish here. After mastering the detailed paperwork, I have enjoyed contributing to the TPP and look forward to seeing the published report and comparing our local results with national trends. 9

Sites Visited for TPP Llynclys Meadow – Site 1 Llynclys Meadow – Site 2 North Shropshire Meadow North Shropshire Site Nantmawr Meadow – Site 1 Nantmawr Meadow – Site 2 Nantmawr Meadow – Site 3 Treflach Meadow Stiperstones Meadow Venus Pool Meadow Creation

Previous Maximum Numbers 3 in early 21st century 70 in 1991 Unknown Unknown 20 in 1991

Number of Plants in 2012 0 1 64 0 6

3 in 2011

Unknown

10 in 1993 3 in 2009 1056.5 in 2011

3 4 1248

Acknowledgements Thanks to Cassy Clayton, Fiona Gomersall, Alex Lockton and Ian Trueman for information. References Harrap, A & S., (2005) Orchids of Britain and Ireland. A & C Black. Stace, C.A., (2010) A New Flora of the British Isles (third edition). Cambridge University Press. Trueman, I., (2011) Meadow Creation at Venus Pool. Shropshire Botanical Society Newsletter, No.22, Spring 2011, p14-15.

The genus Sphagnum â&#x20AC;&#x201C; a guide. Part 3 Sphagnum fallax and S. angustifolium Martin Godfrey Introduction In this third part of my overview of the genus Sphagnum I am going to provide some identification notes on two species which can be quite hard to distinguish in the field. General Both of these species are in section Cuspidatum of the genus Sphagnum. This section is characterised by star-like capitula with developing branches in pairs and stem leaves which hang downwards, see Fig 1. Both species are quite common and occur in a variety of nutrient-poor wet sites and, although they have somewhat different ecological requirements (see below), they may occasionally be found growing together. S. fallax is probably the commoner of the two but, given the similarity in overall appearance, S. angustifolium may well be under-recorded for S. fallax. As we are going to look at the morphology of the branch fascicles and the shape of the stem leaves to distinguish these two species you are going to need to carry out the simple dissection of a single plant outlined in part 1 of the guide â&#x20AC;&#x201C; remove the capitulum then carefully take off several branch fascicles and put them to one side.

Figure 1. Hanging branch leaves.

Sphagnum fallax This plant grows in lawns rather than hummocks and usually shows some yellowish-ochre colour when growing in well lighted situations, Fig.2.

Figure 2. S. fallax. After completing your field dissection first take a look at the branch fascicle, you will see that the spreading and pendent branches are more or less the same length with the pendent branches usually being paler than the spreading, sometimes they are almost white, Fig. 3.

Figure 3. S. fallax branch fascicle. The leaves on the spreading branches are often clearly growing in straight lines and, when dry, are quite strongly curved. Next look at the stem leaf shape; note that this may need some effort as the leaf is small, one cell layer thick and the same colour as the underlying stem. You will see that the leaf is triangular â&#x20AC;&#x201C; perhaps a bit longer than wide, about 0.75mm or so 12

long and at least some of them will have a sharply pointed tip â&#x20AC;&#x201C; as if the leaf had been pinched, Fig. 4.

Figure 4. S. fallax leaf.

Sphagnum angustifolium Like S. fallax this species tends to grow in lawns rather than hummocks. But in my experience tends to be a bit smaller and less strongly coloured although this is by no means invariable, Fig 5.

Figure 5. S. angustifolium. As with the previous species carry out your field dissection. This time when you look at the branch fascicle you will see that the pendent branches are conspicuously longer than the 13

spreading branches Fig 6 â&#x20AC;&#x201C; note the conspicuous here, the difference is obvious, if it isnâ&#x20AC;&#x2122;t then you have S. fallax!

Figure 6. S. angustifolium branch fascicle. In this species the branch leaves are rather more untidy looking than in S. fallax although like that species the branch leaves curve when dry. Now look at the stem leaves â&#x20AC;&#x201C; the same caveat applies regarding difficulty. In S. angustifolium the leaves are a little smaller than S. fallax, are more or less an equilateral triangle and have an obviously blunt leaf tip, Fig. 7.

Figure 7. S. angustifolium leaf.

Ecology Generally speaking S. fallax grows in permanently wet, nutrient poor to intermediate habitats whilst S. angustifolium occurs more frequently in mineral-rich sites and is a bit more base demanding/tolerant. Given these differences it is well worth taking a few minutes to correctly identify which species you have as a change in abundance of one over the other over time may indicate an ecological change in your site. SPHAGNUM – USEFUL READING Here is a list of books which you may find useful; the general books all have sections on Sphagnum and “Smith” is the current standard work on British mosses. Sphagnum Daniels, R.E. and Eddy A. (1985). Handbook of European Sphagna. Institute of Terrestrial Ecology. Out of print but worth searching for as it is a very comprehensive manual of the genus. Available as a free download from http://nora.nerc.ac.uk/8498/ Hill, M.O., revised Hodgetts, N.G. and Payne, A.G. (1992). Sphagnum: a Field Guide JNCC. Nomenclature out of date (but simple to fix) but still probably the best field ID guide. Holzer, A. (2010). Die Torfmoose Sudwestdeutschlands und de Nachbargebiet. Weissendorn Verlag, Jena. In German with keys duplicated in English. A superb handbook with outstanding illustrations. If you can manage a bit of German the sections on ecology are first class. Laine, J. et al. (2011). The intricate beauty of Sphagnum mosses. University of Helsinki. A new publication with truly outstanding illustrations, both of the whole plants and microscopic features. General Atherton, I., Bosanquet, S. and Lawley, M. (eds.) (2010). Mosses and Liverworts of Britain and Ireland, a Field Guide. A new, fully illustrated guide which is likely to prove a standard work for all beginners and students. Watson, E.V. (1981). British Mosses and Liverworts. 3rd ed. Cambridge University Press. This is the standard beginners and students flora. Despite its age it is an excellent introduction to the group. Smith, A.J.E. (2004). The Moss Flora of Britain and Ireland. 2nd ed. Cambridge University Press. This is the current standard moss flora. Hill, M.O., Blackstock, T.H., Long, D.G. and Rothero, G.P. (2008). A Check-List and Census Catalogue of British and Irish Bryophytes. Updated 2008. British Bryological Society. The current checklist for the group. British Bryological Society Website: www.britishbryologicalsociety.org.uk – lots of useful information, pictures and links. 15

Aston Locks off-line reserve – a tale of change Sarah Whild and Alex Lockton In July 2012, the Shropshire Botanical Society visited Aston Locks off-line reserve on the Montgomery Canal in order to document some of the changes that have been taking place on the site. The management and history of the canal and reserve has been well documented several times in the Newsletter and it is a site that appears to be controversial in terms of responses from statutory bodies and voluntary organizations concerned with canal use. The stretch of the Montgomery Canal associated with Aston Locks was extremely diverse with species such as the Nationally Scarce Potamogeton compressus Grass-wrack Pondweed and Luronium natans Floating Water-Plantain which is globally threatened (Stewart et al. 1994). Other aquatic macrophytes including Potamogeton alpinus Red Pondweed and P. friesii Flatstalked Pondweed were abundant in this canal stretch, and this was their only location in Vice-county 40. The site was created in the 1980s as a refuge for aquatic plants during the restoration of the Montgomery Canal. Several rare and scarce aquatic plants were abundant in the Queen’s Head area of the Montgomery Canal and these were removed to the reserve while restoration was carried out. The success of the translocation of the aquatic plants was mixed – neither P. compressus nor L. natans really colonised successfully although the two were sometimes recorded as floating fragments. Other species such as Hottonia palustris Water Violet and P. alpinus spread throughout the aquatic part of the reserve and were abundant for many years. One of the concerns raised when the reserve was first created was the substrate – ideally a puddled clay basin would provide a similar substrate to a canal bed, but butyl liner was used. This meant that dredging could not be carried out to remove excess vegetation or silt, so the site was prone to ecological problems arising from succession from the outset. Although the reserve has been surveyed several times since then, this is the first attempt to assess the changes empirically. The first records for the reserve were made in 1996 and 1997 when 87 species were recorded. It is likely that the first full survey was carried out in 2002 when 115 species were recorded. In 2012 we recorded 167 vascular plants of which 45 were new species and 49 that had been recorded before appeared to be absent. Although the numbers of species lost and gained were not that different, it is worth looking at some of the ecological properties of the two groups of species. One way to look at these differences is to compare Ellenberg values. Ellenberg (1979 in Hill et al. 2000 and 2004) assigned relative values to a range of ecological aspects all northern European species of vascular plant and these were reworked for the British Flora by Hill et al. (2000). The values are for a range of ecological tolerances including Light (1 – 9), Moisture (1 – 12) and Nitrogen (1 – 9) where the higher the number, the higher the preference for that attribute. There are also values for Salinity and pH but these have not been included. 16

If Aston Locks off-line reserve has been subject to successional processes then we should see an increase in species that have a lower light requirement and a decline in species that have a high light requirement. Succession usually involves drying out of substrate so there should be an increase in plants of dry conditions and a decrease in aquatic species. The Ellenberg profiles of the losses and gains are plotted on the three dimensional graphs below and the lists of losses and gained are tabulated below. Gains Agrostis gigantea Arrhenatherum elatius Carex flacca Carex paniculata Carex spicata Conium maculatum Dryopteris dilatata Dryopteris filix-mas Elytrigia repens Epilobium obscurum Epilobium parviflorum Eupatorium cannabinum Galeopsis bifida Galeopsis tetrahit Geranium pratense Geranium robertianum Glechoma hederacea Hedera helix Holcus mollis Juncus tenuis Leucanthemum vulgare Malva moschata Myosotis arvensis Persicaria maculosa Poa humilis Poa trivialis Potentilla reptans Prunus avium Prunus padus Prunus spinosa Quercus robur Quercus rubra Rubus idaeus

Salix caprea Salix x holosericea Schedonorus arundinaceus Scrophularia auriculata Silene x hampeana Sonchus asper Sorbus aucuparia Succisa pratensis Veronica beccabunga Vicia hirsuta Vicia sepium Viola riviniana Losses Chara virgata Acer pseudoplatanus Achillea ptarmica Aira caryophyllea Alisma lanceolatum Alopecurus geniculatus Anagallis arvensis Bromus hordeaceus Bryonia dioica Callitriche hermaphroditica Callitriche platycarpa Caltha palustris Cardamine pratensis Carex demissa Carex leporina Carex pallescens Carex riparia Chamerion angustifolium Eleocharis palustris

Elodea canadensis Elodea nuttallii Galium saxatile Glyceria x pedicellata Hypericum x desetangsii Isolepis setacea Juncus bulbosus Juncus conglomeratus Lapsana communis Lemna trisulca Lythrum salicaria Matricaria chamomilla Myosoton aquaticum Myriophyllum spicatum Petasites hybridus Pilosella officinarum Potamogeton alpinus Potamogeton berchtoldii Potamogeton crispus Potamogeton natans Ranunculus aquatilis s. l. Ranunculus circinatus Reseda luteola Rosa arvensis Silene flos-cuculi Silene latifolia Sonchus arvensis Symphytum officinale Tragopogon pratensis Verbascum thapsus Veronica arvensis Veronica serpyllifolia

There appears to be relatively little difference in the Light profile of lost and gained species but it is apparent from the profile for Moisture that more aquatic species have been lost than gained. Four pondweeds, two water starworts and two water crowfoots have not been recorded in the recent survey and a stonewort Chara virgata has also disappeared so aquatic macrophytes are the most significant feature to disappear from Aston Locks off-line reserve. Hottonia palustris Water Violet is still present but in much reduced amounts. There is one significant winner amongst aquatic plants and that is Hydrocharis morsus-ranae Frogbit, which is dominant in most of the remaining open water. Several plants of early successional stages have also disappeared; Aira caryophyllea Spring Hair-grass and Isolepis setacea Bristle Club-rush are no longer present.

Discussion The reasons for the changes at Aston Locks are not immediately apparent, but it is clear that in this instance the idea of an off-line reserve to conserve the aquatic macrophyte interest of a canal has not worked. The aquatic macrophytes are the most important features of a canal, from the nature conservation perspective, and they have pretty much died out at Aston Locks. The reserve is not significantly eutrophicated but it is possible that the water is more turbid. There is still some open water but shade has increased. The aquatic plants have gone, for reasons we do not fully understand. However, it is not entirely a surprise as the substrate is different to the canal channel and the reserve channel cannot be managed by dredging, so it could be argued that the reserve is essentially more pond-like than canal-like. The suite of plants that it was hoping to conserve are the ones that specifically grow in canals and not necessarily in ponds. It therefore seems quite predictable that the plants would not thrive in the long term in the reserve. This was indeed predicted. When the Montgomery Canal restoration project was started, it was on the condition that canal-like offline reserves would be established, and the ponds at Aston Locks were constructed to be a little bit like a canal, with a gentle flow of water in places. In fact, this has partly worked, because the short stretch of channel at the end of the reserve, just before the flowing water runs over a shallow weir, is the place where the Potamogeton alpinus persisted for longest. This experiment therefore supports the original hypothesis that conserving canal vegetation requires a canal. What should perhaps have been done (and unfortunately was not done), was simply to construct a parallel canal channel and to use the two alternately. If say, a 3km long length of canal joined to, and immediately adjacent to, the main channel of the canal, then it could be allowed to fall into a state of mild dereliction and there is every chance that it would fill up with the characteristic vegetation. Once it became too overgrown it could be dredged out and used as the main line for a while instead, or simply dredge it occasionally and use it very lightly to prevent terrestrialisation. Our conclusion is that the Aston Locks reserve should be declared an inappropriate model for conserving canal aquatic macrophytes but of course it is still of ecological importance and is relatively biodiverse. The wet grassland desperately requires management as pasture which would be the best way to conserve the grassland and wetland interest that remains. Meanwhile, the newly-reformed Canal and River Trust (formerly British Waterways) has a fabulous opportunity here to demonstrate that nature conservation and waterway navigation can be compatible if they get the design of their canals right. With some of these species protected under European law, there are essentially unlimited funds available to any organisation that can successfully manage species like Luronium natans.

References Stewart A, Pearman, D.A., Preston, C.D. (1994). Scarce Plants in Britain. Hill, M.O., Roy, D.B., Mountford, J.O., Bunce, R.G.H. (2000). Extending Ellenbergâ&#x20AC;&#x2122;s indicator values to a new area: an algorithmic approach. Journal of Applied Ecology 37 3-15. Hill, M.O., Preston C.D., Roy, D. (2004). PLANTATT â&#x20AC;&#x201C; Attributes of British and Irish Plants: Status, size, geography, life history and habitats. CEH. Preston, C.D. and Croft, J. (2001). Aquatic Plants in Britain and Ireland. Harley Books 19

Upland mires Hilary Wallace This article on upland mires is timely following Martin Godfrey’s series of articles on the Sphagnum mosses. Mires are in general characterised by suites of some of the more ‘difficult’ plant groups, the Cyperaceae, Juncaceae and in particular the genus Sphagnum, all of which distinguish the mires from the dry heaths with which they share the, often frequent, occurrence of ericaceous subshrubs. Although there are 38 mire communities listed in British Plant Communities (Rodwell 1991) these can be broken down into five broad categories, four of which are largely confined to upland areas.  Bog pools and acidic flushes (M1- M8)  Calcareous sedge mires (M9 –M13)  Wet heaths, raised and blanket mires (M14 – M21)  Fens and rush mires (M22 – M28)  Soakaways, springs and rills (Base poor M29 –M36, Base rich M37,M38) Of these, the fourth category, fens and rush mires, tend to occur in lowland, or only marginal upland habitats and generally on mineral soils or soils with only a shallow humic layer. They are also distinguished by their lack of Sphagna placing them into the marshy grassland category beloved of Phase I surveyors. Table 1. Distribution of species of Sphagnum within mire NVC communities. Nomenclature follows Corley and Hill (1981) for consistency with the published NVC. Recent name changes in Atherton et al. (2010) are listed below the table. Total

Diagnostic

S. auriculatum +

S.auriculatum auriculatum+ S.auriculatum inundatum+

3 3

1, 14, 21, 29, 31, 35

S. capillifolium S. compactum

11 5

17, 18, 19 16

S. contortum S. cuspidatum

3 10

S. fimriatum S.fuscum

Total

Diagnostic

S.palustre

S.papillosum S.pulchrum

14 4

7, 17, 18, 21 2,21

S.quinquefarium S.recurvum +

0* 15

2,4,7,21

9 1, 2, 4

S.riparium S.russowii

1 2

7 7

1* 3

5 1

19, 20

S.squarrosum S.strictum

S.girgensohnii S.imbricatum +

3 2

7 15

S.subnitens S.subsecundum

19 1

7, 14

S.lindbergii S.magellanicum

1 6

7 18

S.teres S.tenellum

4 8

8 18

S.molle

S.warnstorfii

* Unlike other Sphagna these are primarily woodland species. + S.auriculatum, most records probably referable to S.denticulatum, S.imbricatum probably referable to S.austinii, S.auriculatum inundatum=S.inundatum, S.recurvum=S.fallax

Although Sphagna are critical for community determination, only about half the 34 British species play a significant role in community classification (Table 1). In Table 1 the Total column indicates the number of mire communities in which each species has been recorded 20

whilst Diagnostic indicates those units for which the species is either a community or subcommunity constant or is characteristic of a particular subcommunity (Rodwell 1991). It is clear from this that knowledge of only 11 species (those occurring in 5 or more communities) is probably sufficient for fairly accurate community assessment, or 21 if all diagnostics are to be covered, though six of these are only characteristic of either M7 Carex curta-S.russowii and M8 Carex rostrata-S.warnstorfii mire; both relatively scarce, high montane, communities of the Scottish Highlands, Snowdonia and the Pennines. Most of the uplands are covered by a relatively small number of communities which occur in predictable patterns. Flushes with some limited water movement over or under the surface support a distinctive set of communities which weave their way through larger stands of other vegetation. The most common across a wide altitudinal range is the Carex echinataSphagnum recurvum/auriculatum mire (M6); this follows flush lines within acidic grassland, heath and other mires. Two subcommunites are dominated by small sedges and are relatively species rich but most stands appear from a distance as a linear band of rushes always overlaying a ground cover of S.recurvum or S.auriculatum; where M6 occurs in degraded stands of other mires Polytrichum commune may be abundant. Other communities dominated by sedges and sphagna occurring along small streams in similar habitats include the Carex rostrata-S.recurvum (M4) and C.rostrata-S.squarrosum (M5) mires. Where there is some base-enrichment, usually from ground water springs, the more species-rich Carex dioica-Pinguicula vulgaris (M10) mire occurs; this is more common in northern England and Scotland though impoverished stands, often lacking Carex dioica, have been recorded in Wales and Shropshire (Holland 2011). The last two base rich flush communities, Carex demissa-Saxifraga aizoides (M11) and Carex saxatilis mire (M12) are generally restricted to altitudes >500m, M11 occurs in the Lake District, Snowdonia and the Scottish Highlands whilst M12 has only been recorded in Scotland. The next group of communities are the wet heaths (M14-M16) on peat up to 50cm deep and raised and blanket bogs (M17-M21) on deeper peat. The wet heaths are characteristic of lower altitudes as is the valley mire (M21), and only the Scirpus cespitosus-Erica tetralix wet heath (M15) extends into the marginal uplands, often forming transitions to blanket and raised bogs. The blanket bog communities are characterised by a different suite of Sphagna species, including the â&#x20AC;&#x2DC;trueâ&#x20AC;&#x2122; peat builders S.papillosum and S.magellanicum often accompanied by abundant hummocks of S.capillifolium. Rushes and sedges are largely replaced by other Cyperaceae, notably Eriophorum vaginatum and Scirpus cespitosus, and where winter temperatures are not too extreme Molinia caerulea may be common. These species are joined by often high cover of ericaceous subshrubs, most commonly Erica tetralix and Calluna vulgaris with Vaccinium myrtillus and V.oxycoccus; at higher altitudes the less common species of Vaccinium, V.microcarpum, V.vitis-idaea and V.uliginosum may occur as does Rubus chamaemorus. An equal mix of all structural elements is needed for favourable condition. The geographical distribution of the two main communities is determined by the winter temperature tolerance of Molinia caerulea; thus Scirpus cespitosus-Eriophorum vaginatum (M17) mire is largely restricted to the more oceanic western highlands of Dartmoor, Wales and Scotland, whilst the Calluna vulgaris-Eriophorum vaginatum blanket mire (M19) with its wider variety of subshrub species occurs in east Wales, the north Pennines and central Scotland. The heavily degraded stands of the south Pennines, which lack the characteristic bryophyte flora following years of industrial pollution, have their own community, Eriophorum vaginatum blanket and raised mire (M20). Sometimes stands of the Erica tetralix-Sphagnum papillosum raised mire (M18) occur within larger areas of either M17 or M19 (Wallace et al. 1992), though this is generally a more lowland community extending north to the Moray Firth. 21

The last communities can be split into two groups. The soakaways (M29-M30) which are more typical of lowland habitats and the springs and rills (M31-M38), which tend to occur on mineral soils often with quite restricted geographical ranges. M31-M34 are more or less restricted to high altitudes in the Scottish Highlands and are characterised by uncommon species; Anthelia juliacea (M31) recorded at Cwm Idwal in Wales ( Prosser and Wallace 1996) and a few other locations in Snowdonia and the Lake District is otherwise a Scottish community, Saxifraga stellaris (M32) has a similar distribution, the Pohlia wahlenbergii spring community (M33) only occurs in highland Scotland and has its closest floristic counterpart in the mountains of Norway, whilst Carex demissa-Koenigia islandica (M34) has only been recorded from scattered locations on Skye. Their base-rich counterparts M37 Cratoneuron commutatum-Fetuca rubra spring and M38 Cratoneuron commutatum-Carex nigra spring are also more or less restricted to Scotland and north Pennines though recent surveys have mapped stands of M38 on Caer Caradoc in Shropshire (Holland 2011). In summary, the upland peatlands are largely covered by a small number of communities, wet heath (M15) on the lower, shallower peats gives way with increasing altitude and peat depths to M17 blanket mire in the more oceanic areas of the SW peninsula, Wales and Scotland or M19 in harsher conditions; small stands of M18 may develop within all of these. Weaving through these, along flush lines, will be M6, sometimes with all 4 subcommunities forming linear bands outwards from the rill but the species poor Juncus effusus dominated subcommunity predominates, especially along drainage and ditch lines. Where there is some level of base-enrichment from springs it is worth looking out for some of the less common flush and spring communities which are always more rewarding for the less common taxa. In the Shropshire context, the extent of deep peat at higher altitudes is very limited and thus dry heath and acidic grasslands dominate the upland landscape with extensive areas of mires largely restricted to the lowlands in the north. Shallow peat at Clee Hill, Catherton, Stiperstones, Stapeley Hill and The Long Mynd provides habitat for wet heath with blanket bog at Catherton. Flushes, springs and seepage area, especially associated with base-rich groundwater, provide the most promising areas for species-rich mires with many examples of a southern expression of the M10 community recorded. This is a community described by Rodwell as very variable with widespread but local distribution throughout northern England and Scotland, he notes impoverished stands in Wales and the Midlands requiring further study. It is clear that ‘good’ examples, though lacking some of the northern rarities, occur in Shropshire and are worthy of more formal description and conservation. Following on the question in Holland’s paper ‘are there other undesignated sites for M10 in the Midlands’ it would be useful to draw together all available data for stands of this vegetation in order to formalise the recognition of this southern expression of the community in which Anagallis tenella is often frequent. The current distribution of upland mire communities is summarised in Table 2, I thank Kate Thorne for much of the more detailed information in this table.

Table 2. Known or possible locations of upland mire communities in Shropshire.

M1 M4 M6 M10 M15 M16 M19 M21 M29 M38 H4 (humid heath)

Clee Hills, Oswestry uplands Wildmoor pool, Long Mynd Widespread, especially Stiperstones, Stapeley Hill, Catherton common Caradoc and Hope Bowdler, Catherton Common, Clee Hill, Long Mynd, Stapeley, Stiperstones, (commons in Herefordshire) Catherton, Clee Hill, Stapeley Catherton Catherton Catherton, Clee Hill Catherton, Stiperstones Caradoc and Hope Bowdler Catherton, Clee Hill, Silvington Common

References Churton Ecology (2010). Vegetation survey of Catherton Common wildlife Reserve. Report to the Shropshire Wildlife Trust. Holland, T. (2011). Hope Bowdler and Caer Caradoc spring and flush vegetation. Shropshire Botanical Society Newsletter,No. 23, Autumn 2011, pp 9-14. Prosser, M.V. and Wallace, H.L. (1996). Cwm Idwal NNR: NVC Survey 1995. Report to CCW, Bangor. Rodwell, J.S. ed. (1991). British Plant Communities. Volume 2. Mires and Heaths. CUP, Cambridge. Wallace, H.L., Good, J.E.G. and Williams, T.G. (1992). The effects of afforestation on upland plant communities: an application of the British National Vegetation Classification. Journal of Applied Ecology, 29, 180-194.

Understanding Prees Heath Alex Lockton Prees Heath is a large, flat area of land in North Shropshire, a short distance south of Whitchurch (grid reference c. SJ5536). During the wars it was used as an airfield and later most of the land was returned to agricultural use, but the runway and the concrete hand standings around the hangars were left to recolonise naturally. As on some other abandoned airfields around Britain, the thin soil over concrete has produced some interesting vegetation communities, including a type of Bell Heather, Erica cinerea, heath, which is notable for supporting the last surviving population of the Silverstudded Blue butterfly, Plebejus argus, in the Midlands.

--- Prees Heath in 2012 --The current circumstances of Prees Heath is that it is Site of Special Scientific Interest, notified for its butterflies and vegetation, and much of the land a nature reserve, owned by Butterfly Conservation since 2006. The rest of the area is still used as an airfield by the gliding club. The immediate surrounds of the aircraft hangars, which include some fine stands of heath, are all in commercial use. The purpose of this article is to explain and explore what is currently known about the ecology of Prees Heath, focusing mainly on the nature reserve and its importance as a butterfly site. The recent management of the site is reviewed, and recommendations are made for its future. Butterflies, of course, depend on the vegetation communities in which they live, so understanding plants is the key to success of any butterfly conservation project.

History of the vegetation There are no ancient records for Prees Heath as such, but there are some old records for â&#x20AC;&#x2DC;Whitchurch Heathâ&#x20AC;&#x2122; and for sites near Whitchurch which we believe probably refer to the area we now call Prees Heath. In the 1840s Rev. Holland Sandford collected a number of plants, including Heath Bedstraw, Galium saxatile, and Wild Thyme, Thymus polytrichus, there (Caradoc & Severn Valley Field Club, 1913). Not exciting, but that in itself is quite interesting, as he did find rare plants in other sites.

Between 1900 and 1906 Major Anthony Wolley-Dod made a more substantial list which includes perhaps the most characteristic species of the site today: Heath Dog-violet, Viola canina. He also found several species of grassland plant such as Bird’s-foot, Ornithopus perpusillus, and bog plants such as Great Sundew, Drosera anglica (Hamilton, 1909). This gives the impression of a grazed grassland common dotted with little flushes and hollows filled with Sphagnum moss. Not long after this (in 1907) John Ramsbottom, who was later to become Keeper of Botany at the British Museum, made another list, adding more grassland species such as Changing Forget-me-not, Myosotis discolor, and pool plants such as Water-violet, Hottonia palustris (C&SVFC, 1908). In Shrewsbury Museum there is an anonymous collection of plants dating from 1929 and 1930 which includes some specimens from Prees Heath, including the first record of Bell Heather at this site plus rarities such as Spring Vetch, Vicia lathyroides – another grassland plant. This is of course after the airfield was first constructed, but we do not know to what extent that affected the site. These historical records paint a fairly clear picture of the original vegetation. As an unenclosed common, it would have had poor soil and it would have been heavily used by the locals for fuel, forage and other purposes. It seems fair to say that it would have had virtually no trees until after the second world war, and it is quite likely that in the 18th and 19th centuries the grazing would have been so intensive as to create inland sand dunes during dry spells. Rabbits would have been abundant, and hunted for food, fur and fertilizer. One thing we can be pretty sure of: it was not flat. The only way there could have been all these plants present is if there had been wet hollows and dry grassland. The flatness and drainage must have come with the construction of the airfield.

Vegetation Communities If we survey the best parts of Prees Heath today, the surprising conclusion we come to is that it is not a heath at all (Whild Associates, 2007). Not in the sense given in the National Vegetation Classification of an ‘H’ community (Rodwell, 1991). Instead it comes out very clearly as a grassheath, which in NVC terms is an acid grassland, U1 Festuca ovina-Agrostis capillaris-Rumex acetosella grassland. ‘U’ stands for upland, but this is an unusual example of the lowland equivalent. U1 grassland is familiar to everyone in Shropshire as one of the special communities of the hills, especially the south-facing slopes of Longmyndian hills such as Earl’s Hill and Haughmond Hill. Here it is maintained largely by sheep grazing and drought, and in the summer it is often completely parched and devoid of vegetation. But the lowland version is a man-made community, created over centuries by heavy exploitation of the poorest soils by commoners who had no access to the better land. If you neglect an upland stand of U1 for a decade or two it barely changes, but if you leave the lowland equivalent for that long it will quickly turn into scrub. Especially now that there is atmospheric deposition of nitrogen to fertilise the soil. Allowing this U1 grassland to succeed to a climax community produces W10 Quercus roburPteridium aquilinum-Rubus fruticosus woodland, which would be a rather dreary, species-poor type of wood in this area, because there is no ancient woodland nearby from which plants can colonise. However, if you allow the U1 grassland just to begin to succeed to scrub, then the heather grows tall and it resembles a heathland. Under the right circumstances, H8 Calluna vulgaris-Ulex gallii heath can be created. This occurs when the grassland species go into decline and the ground is

AXIOPHYTES RECORDED AT PREES HEATH Species Lycopodium clavatum Botrychium lunaria Oreopteris limbosperma Ceratocapnos claviculata Ranunculus auricomus Ornithopus perpusillus Vicia lathyroides Trifolium campestre T. striatum Prunus padus Potentilla argentea Aphanes australis Frangula alnus Viola canina V. tricolor Linum catharticum Hypericum humifusum H. pulchrum Lepidium heterophyllum Teesdalia nudicaulis Drosera anglica Stellaria pallida Scleranthus annuus Spergula arvensis Spergularia rubra Hottonia palustris Anagallis tenella Calluna vulgaris Erica cinerea Sherardia arvensis Blackstonia perfoliata Echium vulgare Anchusa arvensis Myosotis discolor Veronica officinalis Plantago coronopus Stachys arvensis Galeopsis speciosa Pedicularis sylvatica Pinguicula vulgaris Jasione montana Leontodon saxatilis Filago minima Anthriscus caucalis Platanthera chlorantha Anacamptis pyramidalis Hyacinthoides non-scripta Juncus subnodulosus Carex spicata C. pilulifera Deschampsia flexuosa Aira caryophyllea Aira praecox Bromus racemosus Phragmites australis

Common name Stag's-horn Clubmoss Moonwort Lemon-scented Fern Climbing Corydalis Goldilocks Buttercup Bird's-foot Spring Vetch Hop Trefoil Knotted Clover Bird Cherry Hoary Cinquefoil Slender Parsley-piert Alder Buckthorn Heath Dog-violet Wild Pansy Fairy Flax Trailing St John's-wort Slender St John's-wort Smith's Pepperwort Shepherd's Cress Great Sundew Lesser Chickweed Annual Knawel Corn Spurrey Sand Spurrey Water-violet Bog Pimpernel Heather Bell Heather Field Madder Yellow-wort Viper's Bugloss Bugloss Changing Forget-me-not Heath Speedwell Buck's-horn Plantain Field Woundwort Large-flowered Hemp-nettle Lousewort Common Butterwort Sheep's-bit Lesser Hawkbit Small Cudweed Bur Parsley Greater Butterfly-orchid Pyramidal Orchid Bluebell Blunt-flowered Rush Spiked Sedge Pill Sedge Wavy Hair-grass Silver Hair-grass Early Hair-grass Smooth Brome Common Reed

Last record 1901 2012 1901 2007 2007 2007 1930 2007 2007 1996 1900 1996 2007 2008 2007 2008 2007 2007 2006 2007 1907 2007 1993 2007 2007 1907 1909 2008 2008 2007 1991 1907 2007 2007 2008 1901 2007 1907 1930 1900 2007 2008 2008 2007 2008 2008 2007 2012 2007 2008 2008 2007 2008 2007 2007

Habitat Heath Grassland Wetland Woodland/Heath Woodland Grassland Grassland Grassland Grassland Wetland Grassland Grassland Grassland Wetland Arable Grassland Grassland Woodland Grassland Grassland Wetland Grassland Grassland Grassland Grassland Wetland Wetland Grassland/Heath Grassland Grassland Grassland Grassland Arable Grassland Grassland/Heath Grassland Arable Arable Grassland Wetland Grassland Grassland Grassland Arable Woodland Grassland Woodland Wetland Grassland Grassland Grassland Grassland Grassland Grassland Wetland

covered with bryophytes and lichens. The trouble with H8 heathland in a lowland situation like this is that it is not at all stable. It quickly turns into scrub and then woodland, and you have to be very active in cutting down the birch trees and removing brambles. It is not quite certain that there is any H8 heathland at Prees Heath, but some of the bits on the old runway certainly approach that, where tree growth is suppressed by the shallowness of the soil over the concrete.

grazing H8 Ulex gallii heath

U1 Festuca ovina grass-heath

succession

W23 Ulex europaeus scrub

succession

W10 Quercus robur woodland  The main successional pathways at Prees Heath

What do we want? The main purpose of Prees Heath as a reserve – and one of the legal responsibilities of Butterfly Conservation – is to conserve the colony of Silver-studded Blues, with a secondary objective of boosting the size of this population by expanding its habitat from the old runway onto the fields. For that we need to know a little about the ecology of the butterfly. Silver-studded Blues live in grassland and heath, where their food plants include heather (Calluna vulgaris and Erica cinerea) as well as gorse, bird’s-foot trefoil, wild thyme and other leguminous species. They are associated with ants, mainly the black ant, Lasius niger, which protect the larvae from predators. So, happily, U1 grassland is the perfect habitat for the ants and the butterflies that live with them: an open, sandy sward with a wide variety of herbs and small shrubs. There are other features of importance on the SSSI, though. The citation mentions grass-heath as a feature and lists some of the characteristic plants of such a community. Prees Heath boasts a superb

list of axiophytes: a total of 55, over the years. Of these, 35 are best classified as grassland or grassheath species, with 9 being wetland plants and just 8 specifically heathland species. Given this information, it makes sense to manage Prees Heath not simply as a habitat for Silverstudded Blues, but more generally for its U1 grassland, which contains a wide variety of plants that are attractive to a huge range of Lepidoptera, as well as many other invertebrates.

--- U1 grass-heath: the characteristic vegetation at Prees Heath ---

How do we get it? There is a theory in grassland creation that one should start off by ploughing the soil to reduce nutrients. Some have even advocated growing potatoes for a year or two first (Ash, Bennett & Scott, 1992). At Prees Heath the technique that was used was deep ploughing to bury the fertile topsoil and to bring sand to the surface. This was followed up by strewing heather and planting out small heather seedlings by a dedicated team of volunteers. Unfortunately the dry sandy soil has not been a great substrate for the establishment of heath. Firstly, there have been fast-growing crops of potatoes and weeds to deal with, and secondly the young heather plants have struggled to survive in the dry summer weather. At the moment the most abundant plants are arable weeds such as Annual Nettle, Urtica urens, and Scentless Mayweed, Tripleurospermum inodorum. In a few slightly damper corners the heather is becoming established, but even there it is struggling. There are no signs of ants occupying the restoration areas at all.

So is it time for a change of tack? If we ignore the name ‘Prees Heath’ and call it ‘Prees Grass-heath’ instead, then a solution presents itself. We could sow grasses like Common Bent, Agrostis capillaris, or Wavy Hair-grass, Deschampsia flexuosa. These are much easier to manage than heather. They are better suited to the soil and they are quick-growing. Also, importantly, they can be cheap to manage, by mowing and/or grazing. A closed sward of grasses, especially if mown, will suppress annual weeds and reduce problems like ragwort infestation. So trying to create a grassland instead of a heath would be cheap

and easy. It would be consistent with what we know about the ecology of the site and could be ideal for both the ants and the butterflies. The following therefore seem like practical suggestions:

Management task No. 1: manage the majority of the area of Prees Heath as grassland, by cutting annually, combined with a high level of grazing by rabbits and/or livestock, especially in the autumn. This will create the natural grassland community for this area, which is probably U1 but may include areas of U2 and even MG5 grassland. Such a grassland will naturally colonise with heather from the adjacent grass-heath, obviating the need to plant seed or spread heather brash from other sites, and maintaining the native ecotypes of these plants.

A partially restored area in 2012. Note the invasion of grass despite attempts to create heathland The secondary objective, based on the ecological data to hand, should be to restore some of the wetland habitat. In the past this has included mire communities. One very interesting event at Prees Heath has been the construction of a pond a couple of years ago, which immediately filled up with the rare charophyte Chara hispida (Bristly Stonewort) and which has recently been colonised by Bluntflowered Rush, Juncus subnodulosus: an axiophyte and, significantly, a calcicole (Silver-studded Blues are more common in Britain on calcareous grasslands than on heaths). This points to the possibility of another management action.

Management task No. 2: start to undo the flatness of the site by re-creating hummocks and hollows. This is a delicate operation. The aim is not to create a steep-sided pond or a water reservoir, but to have a gentle undulating landscape rather like that of nearby Brown Moss â&#x20AC;&#x201C; ponds with very gradually shelving shores with areas of raised ground that are slightly higher than the surrounding land. Not an assault course of deep pits and earth embankments.

The third lesson to learn from Prees Heath is that ecological restoration can be difficult and unpredictable. Plans need to be based on carefully collected data and a clear understanding of what the objectives are. In hindsight, it was a mistake to think that conserving butterflies could be as simple as preparing a seed bed and planting heather. We do not even know if the soil inversion was beneficial, because no area was left untouched. It would have been a much better idea to have some experimental areas, to find out which treatment worked best.

Management task No. 3: divide the heath into half a dozen experimental plots and try different techniques on each. Some stands could be sown with grasses, some left to regenerate naturally, and some could be planted with shrubs such as heather. Ideally the plots need to be randomised to make it a valid experiment. Criteria for success should be written down clearly before any monitoring takes place. An obvious one would be to count the number of axiophytes within each plot; another would be to count the number of ants. Conclusion Prees Heath is a site with enormous potential. It has dozens of species of axiophytes and it is the only sizeable area of lowland grass-heath in the county. The honest truth is that it may never host an enhanced population of Silver-studded Blues, because they may turn out to be restricted to the concrete runways. But it used to be an arable field. There is nothing to be lost. Conservation needs to be based on good quality information and well-designed scientific experiments. If you bet everything on a single goal and have just one way of reaching it, then you may achieve it or you may not. But even if you do, you will not really know whether your actions helped or hindered. It is essential to conduct experiments, even if that might add a little to the projected cost and time frame of the project. We now have some excellent information on Prees Heath and although the restoration project has struggled, it is well worth persisting with it, especially as cheaper and more effective methods can now be found.

Acknowledgements My thanks to Sarah Whild and Ian Trueman for commenting on the drafts, and to Stephen Lewis and Butterfly Conservation for access to their survey reports and data.

References Ash, H.J., Bennett, K. and Scott, K. (1992). Flowers in the Grass. English Nature, Peterborough. Caradoc & Severn Valley Field Club (1908). Record of Bare Facts for the year 1907. Caradoc & Severn Valley Field Club (1913). Record of Bare Facts for the year 1912. Hamilton, W.P. (1909). Flora of Shropshire. Unpublished MS, Shrewsbury Library. Rodwell J.S. (1991). British Plant Communities Volume 2 - Mires and Heaths. Cambridge University Press, Cambridge. Whild Associates (2007). A botanical survey of Prees Heath. Unpublished report to Butterfly Conservation, Wareham.

The Ramblings of a Shropshire Naturalist EA Wilson Mags Cousins This is the first of several extracts from the writings of Edward Wilson who was a biology teacher at Ellesmere College. He was a keen naturalist who took detailed and interesting notes of his field excursions in Shropshire. He died in 1985, and his diaries and notebooks are now kept at Shropshire Archives in Shrewsbury. His plant records were computerised onto the Shropshire Flora database, and were published in the Shropshire Botanical Society newsletter, 2002. THE CLAMPING OF THE JAWS OF CATERPILLARS BECOMES AUDIBLE A family outing. We cycled along the road from Ellesmere to the village of Lee and then decided to explore a new part of the country by following a lane which appeared to lead to some woods. Leaving our cycles by a wood we soon came out into a meadow with hilly contours and delightful scenery. To our delight we found we were only about a hundred yards from Whitemere at a spot exactly opposite to the Shewsbury road shore. The approach to the mere was very marshy and a natural habitat for the lovely Marsh Marigold or Kingcup (Caltha palustris) which grew here. Growing in the water beyond them and crowded together were the plants of the Buck Bean (Menyanthes trifoloata) in flower. This plant gets its name from its trifoliate leaves, which are strikingly like those of the Broad Bean in size and appearance. The leaves and flowers arise from a horizontal rhizome floating in the water or lying on the mud, with roots arising from it’s under surface. The spikes of the flowers are most attractive, the individual flowers being bell-shaped. With furry petals of white or pinkish colour. Another marsh plant growing near to the Kingcups was the Greater Spearwort (Ranunculus lingua) a member of the buttercup genus which has strong, juicy stems and leaves which are shaped like lance-heads, quite different from the dissected leaves characteristic of the meadow buttercup. When we entered the woods bordering the mere we noted that many trees had their leaves almost completely eaten away, and we soon became aware of a rustling sound, and of liquid dripping from the trees like a fine drizzle of rain. The sky was a pure azure with not a cloud in sight, and it was a still, sultry day. We soon came to the conclusion that the ‘rustle’ was due to the clamping jaws of thousands of caterpillars, and the ‘drizzle’ was due to their excreta. It is not often that one gets an immediate verification of ones ideas, but the very next morning we read in the ‘Times’: “in oak woods there is now a sound like steady rain, a pattering which goes on ceaselessly all night and all day. It is, inconceivable though this may seem, the feeding of thousands – nay millions – of caterpillars that make this quite loud rustling sound; caterpillars which are munching, munching, munching every hour of the twenty-four. There is, as yet, no very noticeable effect on the foliage of the trees, but soon the oaks will be in rags, and so will be the hazels growing in their shade. Then there will be no pleasure in a woodland walk, for everywhere the full-fed caterpillars will be hanging by silken threads, an army corps of insects who seem to dangle at just the height where they will become entangled with passers by." 17. May, 1948. 31

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Plants characteristic of M10 Carex dioica-Pinguicula vulgaris mire, photos by Hilary Wallace

Anagallis tenella Bog Pimpernel

Campylium stellatum

Drepanocladus revolvens

Erica cinerea Bell Heather, photo courtesy of Natural England