* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Conservation Impact Report 2016
Wildlife crossing wikipedia , lookup
Island restoration wikipedia , lookup
Biological Dynamics of Forest Fragments Project wikipedia , lookup
Occupancy–abundance relationship wikipedia , lookup
Molecular ecology wikipedia , lookup
Mission blue butterfly habitat conservation wikipedia , lookup
Conservation psychology wikipedia , lookup
Conservation biology wikipedia , lookup
Operation Wallacea wikipedia , lookup
Biodiversity action plan wikipedia , lookup
Reconciliation ecology wikipedia , lookup
Berkshire Buckinghamshire Oxfordshire Conservation Impact Report 2016 Berks, Bucks & Oxon Wildlife Trust T. Beckett, D. Lewis, M. Jackson, A. Coulson-Phillips Protecting local wildlife Abstract This report provides a summary of the impact of conservation work conducted by the Berkshire, Buckinghamshire and Oxfordshire Wildlife Trust (BBOWT). The aim of the report is to demonstrate that a conservation strategy can have a significant impact on nature, and that in a period where nature is in decline these efforts are more important than ever. management practices. As BBOWT has adopted relatively low input conservation strategies that can be used alongside hay making and grazing management, the report presents these as options many landowners could take up. Fen, reedbed, wet grassland, lowland heath, pond, lake and river species are under threat from habitat loss and declining water quality: all these habitats require some form of national protection. This report identifies seven different habitats managed by BBOWT where a conservation strategy has been put in place. It reveals that these strategies have a positive impact on indicator species. The report also reviews these habitats within a national context. The landholdings analysed in this report represent some of the last havens for nature in the three counties. What is required are joined up habitats allowing for ecological connectivity across a landscape. It is hoped that this report demonstrates that conservation strategies have tangible benefits to wildlife that are worthwhile taking. The report concludes that in the wider countryside species associated with woodlands, calcareous grasslands, meadows, hedgerows, farmland and rough grasslands, are in decline due to changes in Chalk-fragrant orchids 1 Introduction In the UK, which has the best studied wildlife in the world, between 1970 and 2013 56% of monitored species have declined1. Due to the pressures of changing land use, biodiversity is in decline; the rate of species extinction in England is probably around a species each month, and possibly double that2. Climate change is already affecting our wildlife, and some species will struggle to adapt in a landscape where suitable habitats are isolated. This fragmentation is particularly bad in Berkshire, Buckinghamshire and Oxfordshire, where only 2% of our land is considered rich enough in wildlife to be given national protection. The Berkshire, Buckinghamshire and Oxfordshire Wildlife Trust manages over 2,500 hectares (0.5%) of land in the three counties. Our reputation for careful stewardship of land for wildlife and people has grown significantly in recent years, and the landholdings managed by the Trust have increased by 47% since 2012. Every three years we carry out an internal audit of the ‘health’ of the wildlife we are directly responsible for. The 2015 audit shows land management carried out by BBOWT has improved the value of our land for wildlife across the landholdings. This is in strong contrast to the general backdrop of decreasing biodiversity in the three counties. For butterflies alone, more than three-quarters of the species found in the UK have declined over the last 40 years3. Locally we have lost species like the pearlbordered and small pearl-bordered fritillary during the last 10 years. In the last two years we have probably seen the last marsh fritillary in our three counties. This iconic species has not been seen at its only known breeding site at all this year. This report was compiled by our professional staff and volunteers, with data from thousands of individual surveys. By assessing our nature reserves using an approach similar to the way government bodies, such as Natural England, assess protected areas, BBOWT has determined how many of our nature reserves have wildlife in a good, healthy condition; and thus how effectively our land management conserves wildlife. This assessment is based both on the population trends of individual indicator or specialist species and the habitats in which they thrive. Of nearly 8,000 species assessed using modern IUCN Red List criteria, an accepted system for identifying species under threat, 15% are threatened with extinction in Great Britain4. 27.5% of British birds are now on the Red List of conservation concern5 because of population or range declines in the UK, or because of their global population status. Losses of species will have “potentially serious consequences for the resilience of ecosystem functions on which humans depend”, particularly in respect of pollination, pest control and cultural values6. 1 D.B. Hayhow et al., State of Nature 2016,The State of Nature Partnership, 2016 2 C. Hambler, Evidence-based or Evidence-blind? Priorities for Revitalising Conservation, ECOS 36(3/4) p 22 – 25. 3 The State of the UK’s Butterflies 2015, Butterfly Conservation, 2015 4 D.B. Hayhow et al., State of Nature 2016, The State of Nature Partnership, 2016 5 M Eaton et al., Birds of Conservation Concern 4: The Population Status of Birds in the UK, Channel Islands and Isle of Man, British Birds 108, December 2015, p. 708–746 6 T.H. Oliver et al., Declining Resilience of Ecosystem Functions Under Biodiversity Loss, Nature Communications 6, 2015 2 Woodland Conservation Status Conservation Strategy 9.9% (1.3 million hectares) of England is woodland7, but only 1.2% is semi-natural ancient woodland, around 158,000 hectares8. The structural diversity of woodland provides niches for a huge range of species, and for some types of species, such as lichens, woodlands provide the most diverse habitat9. Maintaining the diversity of woodland means some areas are left to their own devices, while others need intensive management to keep them in favourable condition, and thus supporting rare and specialist woodland wildlife. Woodland management primarily consists of keeping a network of open, sunny rides and rotational coppicing. Woodlands support a diverse range of specialist species including silver-washed fritillary (a species which declined in the 20th century, but has increased its range more recently10) willow warbler (an Amber list species, which has had a modest decline in recent years, with populations in the south east suffering most11) and Bechstein’s bat (one of the UK’s rarest mammals, with possibly only 1500 adults in the entire population12). 11% of all woodland species are threatened with extinction in Great Britain13. In the first years following coppicing these areas are flooded with sunlight allowing woodland flora such as primroses and violets to flourish. As the trees start to regrow, dense patches of scrub develop creating the ideal conditions for dormice and birds such as warblers. Some of the timber generated is stacked up and allowed to rot down naturally, providing a home for fungi and invertebrates. Scallops or bays along the edges of rides are also cut on rotation, ensuring that the rides slowly grade into the mature woodland, thus providing a wide range of environmental conditions, ideal for invertebrates and birds. BBOWT manages 997ha of woodland, 479ha of which are classified as Ancient Woodland. 95% of BBOWT woodlands are classified as favourable or recovering. Woodland ride 3 Conservation Impact ■■ Management of woodland rides has provided the ideal ecological requirements for woodland butterflies such as silver-washed fritillary (Argynnis paphia). 15 woodland nature reserves support populations of silver-washed fritillaries. 13% are new populations with these sites being colonised since 2002. 93% of silver-washed fritillary populations are either increasing or stable (see Figure 1). Figure 1. Silver-washed fritillary population trend at a nature reserve colonised in 2009 (r=0.79, P=6.7E-05) ■■ 6 woodland nature reserves support dormice (Muscardinus avellanariu) populations. Population trends are mixed across these sites. The introduction of an active coppice regime at one site has resulted in a population increase (mean number of dormice per box was 0.005 in 2006, and 0.074 2015). Other populations on sites with similar management interventions are in decline. This is possibly as a result of wetter, milder winters (driven by climate change) increasing hibernation mortality. ■■ Willow warbler (Phylloscopus trochilus) populations on woodland nature reserves have remained stable between 2007 and 2015. Silver-washed fritillary 7 Woodland Area Stats 2010, Forestry Commission, www.forestry.gov.uk/pdf/NFI England_woodland_area_stats_2010_FINAL.pdf 8 UK Woodland Habitats, Joint Nature Conservation Committee, 2013, http://jncc.defra.gov.uk/page-1437, (accessed 12 March 2016) 9 C. Hambler, Evidence-based or Evidence-blind? Priorities for Revitalising Conservation, 2015, ECOS 36(3/4) p. 22 – 25. 10 The State of the UK’s Butterflies 2015, Butterfly Conservation, 2015 11 The Breeding Bird Survey 2015, British Trust for Ornothology 12 S. Harris et al., A Review of British Mammals: Population Estimates and Conservation Status of British Mammals Other Than Cetaceans, JNCC, 1995 13 D.B. Hayhow et al., State of Nature 2016, The State of Nature Partnership, 2016 4 Meadows Conservation Status Conservation Strategy Historically meadows were a major part of England’s landscape. However, between the 1930s and 1987, 97% of England and Wales’ semi-natural grasslands were lost14. This decline has continued apace with the overall extent of UK meadows declining by 2-10% in some parts of the UK per annum since 198415, making this habitat particularly important. Since 2004 BBOWT has carried out 78ha of meadow creation on land that was previously arable. Hay meadow communities have evolved and thrived over hundreds of years of traditional management, and continuation of this is essential for the survival of the community. Hay meadows are particularly susceptible to changes in hydrology, such as summer flooding, which can prevent traditional management. Hay meadow management usually consists of an annual hay cut in mid-July, followed by aftermath grazing with cattle, or occasionally sheep, that graze the grassland through until the autumn. These two strategies are essential in removing nutrients from the system, which if left, would encourage the dominance of coarser grasses and weeds to the detriment of the more poorly competitive wildflowers. 13% of grassland and heathland species are threatened with extinction in Great Britain16. Meadows are floristically diverse and support a range of threatened flora, including the nationally vulnerable true fox sedge (Carex vulpina) and green-winged orchid (Anacamptis morio) (vulnerable in England). Both these species are especially important within an English context as England supports a significant proportion of the British population. Meadows also support birds of conservation concern such as the recently Red listed curlew (Numenius arquata)17. BBOWT manages 499 hectares of meadow, including 10% of the remaining floodplain meadows (MG4) found within England. 94% of BBOWT meadows are classified as favourable or recovering. Ridge and furrow at a hay meadow 5 Conservation Impact Snakes-head fritillaries ■■ On areas restored to meadow communities from arable; characteristic species indicative of MG4 and MG5 meadows dominate, bird’s-foot trefoil (Lotus corniculatus) is over 60% abundant and common knapweed (Centaurea nigra) over 30% abundant. ■■ Green-winged orchid (Anacamptis morio) populations are located on at least five meadow sites. Populations vary greatly on an annual basis, but on average number in their thousands. ■■ One meadow site supports a nationally significant population of snake’s-head fritillary (Fritillaria meleagris). The population varies annually as a result of changes in the hydrological conditions, such as prolonged flooding. However, meadow management through taking a hay cut and aftermath grazing is essential to provide the environmental conditions required by the species (see Figure 2). Figure 2. Snakes-head fritillary population trend on one meadow site 14 R.M. Fuller, The Changing Extent and Conservation Interest of Lowland Grasslands in England and Wales: A Review of Grassland Surveys 1930–1984, 1987 15 UK Biodiversity Action Plan; Priority Habitat Descriptions. BRIG (ed. Ant Maddock) 2008 UK Biodiversity Action Plan; Priority Habitat Descriptions. BRIG (ed. Ant Maddock) 2008.(Updated July 2010) 16 D.B. Hayhow et al., State of Nature 2016, The State of Nature Partnership, 2016 17 M Eaton et al., Birds of Conservation Concern 4: The Population Status of Birds in the UK, Channel Islands and Isle of Man, British Birds 108, December 2015, p. 708–746 6 Lowland Heaths Conservation Status Conservation Strategy Lowland heathland covers 58,000ha18 in England. Like many other semi-natural habitats heathland has experienced a significant contraction in its range, decreasing by 60% since the 19th century19. 13% of grassland and heathland species are threatened with extinction in Great Britain20. Conservation grazing and rotational cutting of heather help to ensure heather is present in a range of different growth stages from very young and short to more mature and bush forming. This provides the right conditions for a range of different species that are adapted to thrive in all stages of heather. Additionally scrub and gorse are controlled and managed to ensure that they do not start to dominate, shading out the heather, but that some is present in dense blocks or as single trees, providing perches and safe nesting sites for a range of bird species and refuges for reptiles. The UK has a special responsibility to conserve and protect this habitat as it supports about 20% of the lowland heathland found across Europe. Heathland is also important in an historical context as much of this habitat developed during Neolithic and Bronze Age forestry clearances. Many of the species associated with heathland are susceptible to disturbance caused by visitors and dogs. The wardening of sites and the focusing public access away from key areas plays an increasingly important role in helping the survival and breeding success of these species. Heathland supports a range of specialist species including birds such as nightjar (Caprimulgus europaeus) and Dartford warbler (Sylvia undata), all of which are currently under threat. Other species include invertebrates such as silver-studded blue (Plebejus argus), keeled skimmer (Orthetrum coerulescens) and small red damselfly (Ceriagrion tenellum) as well as a range of herpetofauna including the increasingly rare adder (Vipera berus). BBOWT manages 445 hectares of lowland heath. 91% of BBOWT lowland heathland is classified as favourable or recovering Heathland nature reserve 7 Conservation Impact ■■ 90% of BBOWT’s of heathlands support adder (Vipera berus) populations. On one site, adders have been radio tracked to assess their response to habitat management and conditions. The evidence showed that males travel further than females (6.7m and 4.7mper day respectively); males travelling further to find mates. Movement was also significantly restricted by wide open, short grassy areas which provide little protection from predation. ■■ In 2010 silver-studded blue (Plebejus argus) colonised heathland adjacent to an existing population. Heather cutting to provide the required pioneer heather has helped the species to spread across the site. The population is also increasing in abundance. Following colonisation the previous year the maximum individual day count was four in 2011; in 2015 this had increased to 14. ■■ 50% heathlands support nightjars (Caprimulgus europaeus). In 2015 18 pairs were recorded. Populations at three sites are stable, one is declining and the final site is increasing (see figure 3). The increase is partly due to site wardening and improved habitat management. Nightjar Figure 3. Trend in number of churring Nightjar at one heathland nature reserve 18 Extent & Distribution of UK Lowland Heathland Habitats, Joint Nature Conservation Committee, jncc.defra.gov.uk/page-5941, (accessed 12 August 2016) 19 N.C. Symes J. and Day, A Practical Guide to the Restoration and Management of Lowland Heathland, 2003,The RSPB 20 D.B. Hayhow et al., State of Nature 2016, The State of Nature Partnership, 2016 8 Ponds, lakes and rivers Conservation Status Conservation Strategy This habitat group covers a wide range of freshwater habitats, including chalk streams. England has more chalk rivers than any other country in Europe21, but in 2014 more than three-quarters (77%) of England’s chalk streams were failing to meet the required “Good” status required by the Water Framework Directive22. This diverse range of aquatic habitats is managed using a variety of different techniques. The focus is often on striking a balance between providing dense scrubby margins and open sunlit margins filled with wildflowers. This is often achieved by rotational scrub control. Creation of bare ground for associated ground nesting birds is also important as is the creation of new ponds. Water bodies support a diverse range of species from aquatic invertebrates such as caddisflies and dragonflies to fish such as bullhead and brown trout. 13% of freshwater and wetland species are threatened with extinction in Great Britain23. Co-ordinated control of American mink across whole river catchments is pivotal in protecting water vole populations from this voracious predator. Floating mink rafts are used to monitor and trap mink. Mink control is co-ordinated strategically, with 160 rafts carefully located across Berks, Bucks and Oxon. Working closely with the 57 landowners currently involved is also essential to the success of this strategy. These habitats are also essential for mammals such as water vole and otters. While otters have made a significant population recovery from virtual extinction across most of England in the 1970s (58.8% positive site records in 2009-1024), water voles continue to be under threat. In 2012 the National Water Vole Mapping Project, indicated that during the previous three years, water vole presence had declined by 22% across England and Wales. Many lakes also support a wide range of breeding and over wintering birds, including some species that are nationally under threat, such as pochard, the status of which has recently moved from Amber to Red25. BBOWT manages 137ha of ponds, lakes and rivers: 92% of which is classified as favourable or recovering. 9 Water vole Conservation Impact ■■ Local Key Areas for water voles (Arvicola amphibious) increased by 10% between 2012 and 2015, extending from 506 to 560 km2 (see Figure 4 below). ■■ In 2010, following ditch management and mink (Neovison vison) control water voles colonised a wetland nature reserve. ■■ Pochard (Aythya farina) populations on BBOWT reserves has mirrored the national population decline. Across 6 open water sites there has been a drop in mean maximum count from 42 individuals in 2005 to 4 individuals in 2015. Other species such as tufted duck have remained relatively stable (across 6 sites, mean individual max count in 2005 was 57, in 2015 it was 44). Figure 4. Extent of water vole local key areas in Berks, Bucks and Oxon 21 J. Lawton, Making Space for Nature: A review of England’s Wildlife Sites and Ecological Network, 2010 22 The State of England’s Chalk Streams, WWF-UK, 2014 23 D.B. Hayhow et al., State of Nature 2016, The State of Nature Partnership, 2016 24 Fifth Otter Survey of England 2009 – 2010, Technical Report, Environment Agency, 2010. 25 M Eaton et al., Birds of Conservation Concern 4: The Population Status of Birds in the UK, Channel Islands and Isle of Man, British Birds 108, December 2015, p. 708–746 10 Calcareous grasslands Conservation Status Conservation Strategy There is currently 30,687ha of chalk grassland in England26. Chalk grassland develops on shallow limerich (pH range between 6.5 and 8.5) soils overlying chalk. It is one of the richest habitats of Western Europe, containing a great diversity of plants and animals, many of which are nationally or internationally rare or endangered. Chalk grassland may support over 50 species of flowering plant per square metre27. The vast majority of chalk grassland was traditionally managed as pasture and continuation of this traditional management is essential in maintaining a floristically diverse sward, in which coarse grasses are prevented from dominating. This is primarily achieved through late summer and autumn grazing using sheep or cattle. Other vegetation including scrub is kept in balance by hand control carried out by staff and volunteers. Much of the flora found in these habitats are specially adapted to the low nutrient, high pH conditions and will simply not survive elsewhere. This specialism is mirrored within the associated butterfly assemblage, many species of which are dependent on key chalk flowers and grasses as their caterpillars’ food plant, for example small blue (Cupido minimus) and Adonis blue (Polyommatus bellargus) butterflies. Rare and threaten flora found on chalk grassland include the Chiltern gentian (Gentianella germanica), which grows only within the Chilterns in Great Britain and monkey orchid (Orchis simia), both of which are classified as Vulnerable28 in England. Between 1968 and 2006 pasque flower (Pulsatilla vulgaris) had disappeared from 16 of its 33 known sites, with the losses being largely due to inappropriate grazing management29. BBOWT manages 130 hectares of calcareous grassland: 100% of which is classified as favourable or recovering. Conservation Strategy 11 Conservation Impact ■■ Consistent grazing and scrub control help ensure that chalk grassland sites remain floristically diverse. One typical chalk grassland reserve has 34% cover of rockrose (Helianthemum nummularium), 50% cover of scabious species (Scabiosa columbaria & Knautia arvensis) and 46% quaking grass (Briza media); all of which are now classified as Near Threatened, due to their decline in the ‘wider countryside’. ■■ Silver-spotted skippers (Hesperia comma) are expanding their range northwards in part due to climate change. Management of chalk grassland ensures the abundant short sward required by this species is present, so promoting potential colonisation by the occasional vagrants recorded on sites. One site already supports a strong population of this butterfly with a maximum count of 19 individuals in 2014. ■■ Seven chalk grasslands support populations of pure Chiltern gentian. Driven by the plant’s life cycle requirements numbers vary significantly between years. In any given year there can be over 10,000 individual plants. Following scrub removal numbers have significantly increased at one of the seven sites. Data is not available for years following 2013 as the population was too numerous to count accurately (see figure 5). Chiltern gentian Figure 5. Chiltern gentian numbers at one chalk grassland nature reserve 26 Extent & Distribution of UK Lowland Grassland Habitats, Joint Nature Conservation Committee, jncc.defra.gov.uk/page-5848 (accessed 12 August 2016) 27 Meadows, Grass and Pasture: Introduction, Low Impact, www.lowimpact.org/lowimpact-topic/meadows-grass-pasture (accessed 12 August 2016) 28 P.A Stroh et al., A Vascular Plant Red List for England, Botanical Society of Britian and Ireland, Bristol, 2014. 29 K.J. Walker and C.E Pinches, Reduced Grazing and the Decline of Pulsatilla Vulgaris Mill. (Ranunculaceae) in England, UK, Biological Conservation, 144 2011, p. 3098–3105. 12 Fen, reedbed and wet grassland This broad category draws together different habitat types under the common requirement for the land to be wet; or to put it another way, hydrology is a key factor for habitat quality and sustainability. Wet grassland in this context does not include haycut lowland meadow; but does cover wet grasslands primarily managed for their wading bird and invertebrate interest. The nesting sites of wading birds including lapwing (Vanellus vanellus), redshank (Tringa totanus) and curlew (Numenius arquata) are wet grasslands with tussocky areas where fledging chicks can shelter, and soft mud in which the adult birds probe for their invertebrate food. Breeding by the main wader species has been steadily declining in the Upper Thames catchment, 43% since 200532. Taller swards, particularly with species such as reed sweetgrass (Glyceria maxima) and greater tussock-sedge (Carex paniculata) are the habitat of Desmoulin’s whorl snail (Vertigo moulinsiana) – a rare European protected species which has suffered declines and for which the outlook is classed as “bad” 33. Conservation Status Fens occur where groundwater is at or around the land surface all year round, maintaining wet conditions. Of the estimated 3400km2 of fen present in England in 1637, only 10km2 remains today30. The water source for a fen determines the plants and animals that make up the wildlife present. All water ultimately comes from rainfall; it is then fed into wetlands either from surface flow or groundwater (soils or aquifers). The water in fens fed from aquifers will have dissolved minerals. The resulting vegetation communities contain many species adapted to both the water regime and the chemistry of the water. Base-rich fen can be very floristically diverse, supporting a range of specialist flora such as grass-of-Parnassus (Parnassia palustris), black bog-rush (Schoenus nigricans) and marsh helleborine (Epipactics palustris). The open water found in the pools and streams on fen sites support species such as common bladderwort (Utricularia vulgaris) and a range of invertebrates including the southern damselfly (Coenagrion mercurial) and the rare calcareous fen specialist the clubbed general soldierfly (Stratiomys chamaeleon). BBOWT manages 92 hectares of fen, reedbed and wet grassland: 99% of which is classified as favourable or recovering. Reedbeds are a type of fen, typically with very high water levels and dominated by common reed (Phragmites australis). Pure reedbeds often have very low floral diversity, but do provide habitat for specialist bird and invertebrate species such as bittern (Botaurus stellaris), Cetti’s warbler (Cettia cetti), the scarlet tigermoth (Callimorpha dominula). Historically reedbeds were widely distributed and covered large areas (e.g. the Norfolk and Lincolnshire fenlands), but agricultural management has reduced the current extent to around 6,500ha, with only around 15 sites being larger than 40ha31. The majority of sites are coastal, and sizeable inland reedbeds in southern England are rare. Fen at a nature reserve 13 Conservation Strategy Conservation Impact Fen and reedbed are semi-natural habitats, inasmuch as they are not stable communities but mid-succession habitats, and are maintained by human interventions such as reed cutting (for thatching), peat digging or grazing livestock. Copying traditional management is required in the form of rotational reed and fen cutting, low intensity grazing, and control over water levels to be able to achieve the specific water regime required by target species. Predator control may also be required to safeguard the eggs and chicks of wading birds. Targeted restoration of fen and reedbed habitat is carried out to increase the habitat resource and link extant patches. Scrape and ditch restoration in wet grassland also benefits wading birds. ■■ Cutting dense sedge tussocks helps reduce its competitive vigour. At one fen site this has resulted in a significant increase in the number of early marsh-orchid (Dactylorhiza incarnata), which has risen from c.500 in 2009 to c.2300 in 2016. Southern damselfly ■■ Across sites numbers of lapwing and curlew have remained relatively stable between 2009 and 2015 (10 pairs and 11 pairs respectively), however total numbers are low. This mirrors the national trend of decline (50% since 197534). Management and predation control measures are being implemented to try and increase numbers of pairs breeding successfully. ■■ Two calcareous fen sites support populations of southern damselfly. The introduction of grazing by Welsh ponies, ideally suited to the wetland conditions, and increased vegetation cutting along runnel edges has resulted in a significant positive response in the southern damselfly population. In 2005 the maximum number of individuals recorded was one; in 2015 the maximum count had increased to 17 individuals. Figure 6. Southern damselfly sightings at a known local site Southern damselfly 30 A. McBride et al. (ed), The Fen Management Handbook, Scottish Natural Heritage, Perth, 2011. 31 C. Hawke and P. José, Reedbed Management – for Commercial and Wildlife Interests. RSPB, Sandy, Beds, 1996. 32 C. Kinnear, Upper Thames Breeding Wader Report, RSPB, 2016 (unpublished) 33 Third Report by the United Kingdom under Article 17 on the implementation of the Directive from January 2007 to December 2012, Conservation status assessment for Species: S1016 - Desmoulin’s whorl snail (Vertigo moulinsiana), Joint Nature Conservation Committee, 2013. 34 M. Eaton et al., Birds of Conservation Concern 4: The Population Status of Birds in the UK, Channel Islands and Isle of Man, British Birds 108, December 2015, p. 708–746 14 Hedgerows, farmland and rough grassland Conservation Status Hedges provide an important corridor for many wildlife species, such as bats and dormice to travel across the landscape. Many species of bird and insect also use hedgerows as a primary habitat (to live in or on, rather than simply travel through). The network of hedges at Bernwood Meadows support a range of wildlife, but of particular note are populations of black and brown hairstreak butterflies. These butterflies have a restricted distribution across the UK, particularly the black hairstreak which is found only in the south and east midlands. Since the 1970s the brown hairstreak has experienced a 43% contraction in its range37, partly as a result of intensive hedgerow flailing, which destroys the new blackthorn growth the caterpillars depend upon. 8.9 million hectares (68%) of England is actively farmed land35. Farmed land is an important habitat for native wildlife. Birds, small mammals and invertebrates can all thrive in agricultural systems. However, since the Second World War farming practices have significantly changed in response to domestic and global market forces and advances in technology. This has resulted in the decrease in the number of mixed farming systems; the move from spring to autumn and winter sown arable crops; the switch from hay to silage production; increased mechanisation (contributing to hedgerow loss) and increased pesticide and fertiliser use. These changes have contributed to the loss of suitable nesting and feeding habitats for farmland birds and a general reduction in the availability of seed and insect food, and a decrease in invertebrate biomass. Between 1970 and 2013 the national populations of corn bunting, tree sparrow, skylark and yellowhammer declined by 91%, 90%, 62% and 54% respectively36. We manage 10 hectares of hedgerows: 100% of which are in a favourable or recovering state. Rough grassland is very important for a range of species, including small mammals, invertebrates and raptors. The structure of the habitat provides safe cover for small mammals, particularly harvest mice, to nest and forage for food. Research has suggested that the harvest mouse population declined by 71% between 1979 and 1997 due to changes in farming practices across the UK38. BBOWT manages 78 hectares of farmland: of which 99% is in a favourable or recovering condition. We also advise numerous farmers on practices that may promote wildlife. BBOWT manages 57 hectares of rough and improved grassland, of which 98% is in a favourable or recovering status. 15 Conservation Strategy Conservation Impact A wide range of measures to benefit farm wildlife are in place on our agricultural holdings including in-field skylark plots, beetle banks, margins sown with nectar and pollen-rich species, uncropped headlands and over-wintered stubbles to provide winter seed. These measures are to specifically benefit seed and insecteating birds like corn bunting and skylark, but also have benefits for pollinators, small mammals and overall biodiversity. ■■ Creation of bespoke areas such as skylark plots and arable margins within arable areas has benefited farmland birds such as skylark (Alauda arvensis) and corn bunting (Miliaria calandra). Arable populations are stable with a mean 5 corn bunting territories and a mean 8 skylark territories between 2010 and 2015. Brown and black hairstreak caterpillars are entirely limited to blackthorn, of specific, but different, ages. Black hairstreaks require old, mature blackthorn while brown hairstreaks need young, tender growth. Management is therefore focused on ensuring that at any given point in time there is sufficient blackthorn at these different growth stages – coppicing and laying are used to create the right balance. New hedges containing a variety of native species have been planted to benefit a range of birds and insects. Blackthorn, common hawthorn and hazel are the dominant species in the mixes, with other flowering and fruiting shrubs included and oak and field maple, these latter will be allowed to develop as standard trees along the hedgerow. Tree sparrow boxes are put up in suitable locations. ■■ One site with extensive rough grassland margins supports a significant population of harvest mice (Micromys minutus), with over 100 nests in 3 fields. ■■ The site also has a stable population of barn owl (Tyto alba) (mean of 6 young fledged per annum between 2005 and 2015); although this fluctuates greatly in response to the weather. ■■ At least 8 sites support brown hairstreak (Thecla betulae) populations. Rotational hedgerow management is undertaken to provide the young blackthorn growth required by the caterpillars. At the sites with the largest populations, numbers are currently stable. Figure 7. Brown hairstreak eggs trend at one meadow site Management of rough grassland is a careful balancing act. Too frequent cutting or grazing will destroy the tussocky grassland structure needed by the small mammals, but too long a gap will result in scrub invading and shading out the grassland altogether. Currently, a mix of grazing and grass cutting with the tractor is carried on a varied rotation to establish which works best where to create the ideal structural diversity. Any invading scrub which is too big to be cut or grazed is removed by hand. In addition to the crucial habitat management one site has six barn owl boxes. These provide places for the owls to roost in, nest and increase the population of this important farmland bird. 35 Structure of the agricultural industry in England and the UK at June, DEFRA, www.gov.uk/government/statistical-data-sets/structure-of-the-agricultural-industry-in-england-and-the-uk-at-june (accessed 19 August 2016) 36 M. Eaton et al., Birds of Conservation Concern 4: The Population Status of Birds in the UK, Channel Islands and Isle of Man, British Birds 108, December 2015, p. 708–746 37 Brown Hairstreak, Butterfly Conservation, butterfly-conservation.org/50-1309/brown-hairstreak.html (accessed 22/8/16 38 UK Priority Species Pages, Joint Nature Conservation Committee, jncc.defra.gov.uk/_speciespages/2428.pdf (accessed 22 August 2016) 16 Conclusion This Conservation Impact Report demonstrates that conservation and enhancement of our natural environment is possible. It also highlights that beyond existing protected areas, such as our own nature reserves, the pattern continues to be one of decline. In fact across the UK, wildlife is in decline in all of the habitats reviewed in this report. central government can land managers deliver enhanced biodiversity, alongside the provision of other public goods such as flood relief and access to the countryside. BBOWT’s Conservation Impact Report coincided with the publication of the State of Nature Report 2016, produced by more than 50 conservation organisations, including The Wildlife Trusts. This shows that more than 10% of our species are threatened with extinction within the UK. It also shows that the drivers of decline are predominantly those associated with the management of agricultural land. BBOWT is able to show that when sites are managed specifically for biodiversity, using best-practice conservation techniques, key indicator species can be maintained, and habitats can be restored and improved for wildlife. In particular, floodplain meadows in our region are of major national importance. BBOWT is currently directly responsible for over 10% of the national resource of the UKs most wildlife-rich meadows. Our management is protecting the sites that we are responsible for, creating new habitats alongside existing meadows, and supplying wild flower and grass seed for new meadows beyond our nature reserves. BBOWT takes the view that any effective strategy to reverse the decline in wildlife in our region will have to tackle the wider and largely agricultural landscape. The decline of wildlife species on unprotected land will only be halted when land managers improve habitats that contribute to a network of wildlife-rich spaces between the existing protected areas. The management of protected areas, including our own nature reserves, has also reduced the declines in some key species. For example, conservation efforts for nightjars and adders within protected areas, such as Greenham Common, have had an impact on slowing the loss of these key species. But protected areas only cover a tiny proportion of our countryside. Climate change is known to be a major threat to wildlife internationally. Locally, the impact has been complex, with some species able to take advantage of warmer average temperatures, while others appear to have declined as a result. For example, the hazel dormouse appears to have been directly affected by the changing climate, with warmer winters affecting hibernation. If BBOWT and other conservation organisations are to significantly reverse the declines in biodiversity across the range of habitats covered in this Conservation Impact Report, it is essential to have financial and policy commitments from central government for wildlife enhancement outside of existing protected areas. Only when there is strategic support from Acknowledgements This report is based on data collected by hundreds of volunteers and staff, during many thousands of surveys, in over a decade of monitoring. Their continued support and dedication has played a significant role in enabling the understanding of the condition of nature reserves and their value for biodiversity. 17 Photos: Kate Dent, Stacey Doran, Andy Fairbairn, Aubrey Jenkins, Tom Marshall, Newbury Ringing Group, John O’Dwyer, James Osmond, Alastair Rae, Helen Walsh, Colin Williams