Abstract
‘Grassland restoration aims to recover the diversity and ecosystem services that grasslands provide’ (Blair et al. 2014). Those aims include native insects themselves (diversity) and services such as pollination, to which they are central contributors, with the major purpose of rendering altered grassland more akin to their unaltered ‘natural’ states. Restorations and reconstructions that are integrated into the wider landscape context may be more successful than isolated restoration patches, as Shepherd and Debinski (2005a, b) found for prairie butterflies in Iowa. Their more integrated restoration patches developed richer butterfly assemblages than isolated patches, and more resembled assemblages on remnant prairie fragments. Study of a wider array of arthropods, although these were analysed only to family level, implied that outcomes from prairie restoration efforts could approximate native remnant communities present (Orlofske et al. 2011), and also supported the values of integrated restoration planning. Sound ecological understanding should underpin any restoration anticipated, or translocation/re-introduction exercise, for a given insect species, with wider requirements for conservation of more diverse communities. Site preparations can be complex, necessitating modifications of topography (Morris et al. 1994) and vegetation, as well as assuring supply of all other critical resources. More broadly, as Morris et al. commented ‘management of grassland in reserves or protected areas is (or should be) a series of subtle and finely-tuned processes’ that allow for persistence of many species.
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References
Alison J, Duffield SJ, Morecroft MD, Marrs RH, Hodgson JA (2017) Successful restoration of moth abundance and species-richness in grassland created under agri-environment schemes. Biol Conserv 213:51–58
Augenstein B, Ulrich W, Habel JC (2012) Directional temporal shifts in community structure of butterflies and ground beetles in fragmented oligotrophic grasslands of Central Europe. Basic Appl Ecol 13:715–724
Barber NA, Lamagdeleine-Dent KA, Willand JE, Jones HP, McCravy KW (2017) Species and functional trait re-assembly of ground beetle communities in restored grasslands. Biodivers Conserv 26:3481–3498
Bell JR, Wheater P, Cullen WR (2001) The implications of grassland and heathland management for the conservation of spider communities: a review. J Zool 255:377–387
Biedermann R, Achtziger R, Nickel H, Stewart AJA (2005) Conservation of grassland leafhoppers: a brief review. J Insect Conserv 9:229–243
Birkhofer K, Diekotter T, Meub C, Stotzel K, Wolters V (2015) Optimizing arthropod predator conservation in permanent grasslands by considering diversity components beyond species richness. Agric Ecosyst Environ 211:65–72
Blair J, Nippert J, Briggs J (2014) Grassland ecology. In: Monson RK (ed) Ecology and the environment. The plant sciences 8. Springer, New York, pp 389–423
Bourn NAD, Thomas JA (2002) The challenge of conserving grassland insects at the margins of their range in Europe. Biol Conserv 194:285–292
Bruppacher L, Pellet J, Arlettaz R, Humbert J-Y (2016) Simple modifications of mowing regime promote butterflies in extensively managed meadows: evidence from field-scale experiments. Biol Conserv 196:196–202
Clarke GM, Whyte LS (2003) Phylogeography and population history of the endangered golden sun moth (Synemon plana) revealed by allozymes and mitochondrial DNA analysis. Conserv Genet 4:719–734
Cremene C, Groza G, Rakosy L, Schileyko AA, Bauer A, Erhardt A, Baur B (2005) Alterations of steppe-like grasslands in Eastern Europe: a threat to regional biodiversity hotspots. Conserv Biol 19:1606–1618
Dahms H, Lenoir L, Lindborg R, Wolters V, Dauber J (2010) Restoration of seminatural grasslands: what is the impact on ants? Restor Ecol 18:330–337
Davis CA, Utrup JS (2010) Response of terrestrial invertebrates to high- and low-diversity grassland restorations in South-central Nebraska. Restor Ecol 18:479–488
Fenner M, Palmer L (1998) Grassland management to promote diversity: creation of a patchy sward by mowing and fertiliser regimes. Field Stud 9:313–324
Gawalek M, Dudek K, Ekner-Grzyb A, Kwiecinski Z, Sliwowsa JH (2014) Ecology of the field cricket (Gryllidae: Orthoptera) in farmland: the importance of livestock grazing. North-West J Zool 10:325–332
Griffin SR, Bruninga-Socolar B, Kerr MA, Gibbs J, Winfree R (2017) Wild bee community change over a 26-year chronosequence of restored tallgrass prairie. Restor Ecol 25:650–660
Habel JC, Augenstein B, Schmitt T, Ulrich W (2016) Managing towards extinction: diverging developments of plant and ground beetle assemblages following restoration of calcareous grasslands. Basic Appl Ecol 17:668–677
Harmon-Threatt A, Chin K (2016) Common methods for tallgrass prairie restoration and their potential effects on bee diversity. Nat Areas J 36:400–411
Heikkinen RK, Poyry J, Virkkala R, Bocedi G, Kuussaari M et al (2015) Modelling potential success of conservation translocations of a specialist grassland butterfly. Biol Conserv 192:200–206
Hochkirch A, Witzenberger KA, Teerling A, Niemeyer F (2007) Translocation of an endangered insect species, the field cricket (Gryllus campestris Linnaeus, 1758) in Northern Germany. Biodivers Conserv 16:3597–3607
Huxel GR, Hastings A (1999) Habitat loss, fragmentation, and restoration. Restor Ecol 7:309–315
Jellie ZV, Wills TJ, Kutt AS, Hemming VL, King DJ et al (2014) Experimental slab salvage and reinstatement after pipeline construction in a threatened grassland community. Ecol Man Rest 15:161–165
Karg J, Kujawa K, Manhart C, Marschalek H, Neugebauer KR, Sachteleben J (2015) Restoration of subalpine species-rich grasslands: short-term vs long-term changes in the density and diversity of above-ground insects. Pol J Ecol 63:142–158
Kiehl K, Wagner C (2006) Effect of hay transfer on long-term establishment of vegetation and grasshoppers on former arable fields. Restor Ecol 14:157–166
Knop E, Herzog F, Schmid B (2011) Effect of connectivity between restoration meadows on invertebrates with contrasting dispersal abilities. Restor Ecol 19:151–159
Lenda M, Skorka P, Moron D, Rosin ZM, Tryjanowski P (2012) The importance of the gravel excavation industry for the conservation of grassland butterflies. Biol Conserv 148:180–190
Littlewood NA, Stewart AJA, Woodcock B (2012a) Science into practice – how can fundamental science contribute to better management of grasslands for invertebrates? Insect Conserv Divers 5:1–8
Littlewood NA, Pakeman RJ, Pozsgai G (2012b) Grazing impacts on Auchenorrhyncha diversity and abundance on a Scottish upland estate. Insect Conserv Divers 5:67–74
Morris MG (2000) The effects of structure and its dynamics on the ecology and conservation of arthropods in British grasslands. Biol Conserv 95:129–142
Morris MG, Thomas JA, Ward LK, Snazell RG, Pywell RF, Stevenson MJ, Webb NR (1994) Re-creation of early-successional stages for threatened butterflies – an ecological engineering approach. J Environ Manag 42:119–135
Mortimer SR, Hollier JA, Brown VK (1998) Interactions between plant and insect diversity in the restoration of lowland calcareous grasslands in Southern Britain. Appl Veg Sci 1:101–114
Mortimer SR, Booth RG, Harris SJ, Brown VK (2002) Effects of initial site management on the Coleoptera assemblages colonising newly established chalk grassland on ex-arable land. Biol Conserv 104:301–313
O’Dwyer C, Attiwill PM (1999) A comparative study of habitats of the golden sun moth Synemon plana (Lepidoptera: Castniidae): implications for restoration. Biol Conserv 89:131–141
O’Dwyer C, Attiwill PM (2000) Restoration of a native grassland as habitat for the Golden sun moth Synemon plana (Lepidoptera; Castniidae) at Mount Piper, Australia. Restor Ecol 8:170–174
Orlofske JM, Ohnesorg WJH, Debinski DM (2011) A comparison of the arthropod communities in remnant, restored, and reconstructed Iowa tallgrass prairies. Nat Areas J 31:148–155
Pechackova S, Hadincova V, Munzbergiova Z, Herben T, Krahulee F (2010) Restoration of species-rich, nutrient-limited mountain grassland by mowing and fertilization. Restor Ecol 18(S1):166–174
Poyry J, Luoto M, Paukkunen J, Pykala J, Raatikainen K, Kuussaari M (2006) Different responses of plants and herbivore insects to a gradient of vegetation height: an indicator of the vertebrate grazing intensity and successional ages. Oikos 115:401–412
Prach K, Jongepierova I, Rehounkova K, Fajmon K (2014) Restoration of grasslands on ex-arable land using regional and commercial seed mixtures and spontaneous succession: successional trajectories and changes in species richness. Agric Ecosyst Environ 182:131–136
Racz IA, Deri E, Kisfali M, Batiz Z, Varga K, Szabo G, Lengyel S (2013) Early changes in orthopteran assemblages after grassland restoration: a comparison of space-for-time substitution versus repeated measures monitoring. Biodivers Conserv 22:2321–2335
Shepherd S, Debinski DM (2005a) Reintroduction of Regal Fritillary (Speyeria idalia) to a restored prairie. Ecol Restor 23:244–250
Shepherd S, Debinski DM (2005b) Evaluation of isolated and integrated prairie reconstructions as habitat for prairie butterflies. Biol Conserv 126:51–61
Shuey JA (2013) Habitat re-creation (ecological restoration) as a strategy for conserving insect communities in highly fragmented landscapes. Insects 4:761–780
Silburn DM, Robinson JB, Freebairn DM (2007) Why restore marginal cropland to permanent pasture? Land resource and environmental issues. Trop Grassl 41:139–153
Stoate C, Baldi A, Boatman ND, Herzon I, van Doorn A et al (2009) Ecological impacts of early twenty-first century agricultural changes in Europe – a review. J Environ Manag 91:22–46
Summerville KS (2008) Species diversity and persistence in restored and remnant tallgrass prairies of North America: a function of species’ life history, habitat type, or sampling bias? J Anim Ecol 77:487–494
Torok P, Vida E, Deak B, Lengyel S, Tothmeresz B (2011) Grassland restoration on former croplands in Europe: an assessment of applicability of techniques and costs. Biodivers Conserv 20:2311–2332
Trueman I, Mitchell D, Besenyei L (2007) The effects of turf translocation and other environmental variables on the vegetation of a large species-rich mesotrophic grassland. Ecol Eng 31:79–91
Uchida K, Takahashi S, Shinohara T, Ushimaru A (2016) Threatened herbivorous insects maintained by long-term traditional management practices in semi-natural grasslands. Agric Ecosyst Environ 221:156–162
Valko O, Deak B, Torok P, Kirmer A, Tischew S et al (2016) High-diversity sowing in establishment gaps: a promising new tool for enhancing grassland biodiversity. Tuexenia 36:359–378
Wagner C (2004) Passive dispersal of Metrioptera bicolor (Phillipi 1830) (Orthopteroidea: Ensifera: Tettigoniidae) by transfer of hay. J Insect Conserv 8:287–296
Walker KJ, Stevens PA, Stevens DP, Mountford JO, Manchester SJ, Pywell RF (2004) The restoration and re-creation of species-rich lowland grassland on land formerly managed for intensive agriculture in the UK. Biol Conserv 119:1–18
WallisDeVries MF, Poschlod P, Willems JH (2002) Challenges for the conservation of calcareous grasslands in North-Western Europe: integrating the requirements of flora and fauna. Biol Conserv 104:265–273
Wells TCE (1989) The re-creation of grassland habitats. Entomologist 108:97–108
Williams K, Cary J (2001) Perception of native grassland in Southeastern Australia. Ecol Manag Restor 2:139–144
Williams NSG, Marshall A, Morgan JW (eds) (2015) Land of sweeping plains. Managing and restoring the native grasslands of South-Eastern Australia. CSIRO Publishing, Clayton South
Wodika BR, Klopf RP, Baer SG (2014) Colonization and recovery of invertebrate ecosystem engineers during prairie restoration. Restor Ecol 22:456–464
Woodcock BA, McDonald AW (2010) What goes wrong? Why the restoration of beetle assemblages lags behind plants during the restoration of a species rich floodplain meadow. Fritillary 5:21–30
Woodcock BA, Edwards AR, Lawson CS, Westbury DB, Brook AJ et al (2008) Contrasting success in the restoration of plant and phytophagous beetle assemblages of species-rich mesotrophic grasslands. Oecologia 154:773–783
Woodcock BA, Bullock JM, Mortimer SR, Pywell RF (2012a) Limiting factors in the restoration of UK grassland beetle assemblages. Biol Conserv 146:136–143
Woodcock BA, Bullock JM, Mortimer SR, Brereton T, Redhead JW, Thomas JA, Pywell RF (2012b) Identifying time lags in the restoration of grassland butterfly communities: a multi-site assessment. Biol Conserv 155:50–58
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New, T.R. (2019). Grassland Management for Insect Conservation: Restoration. In: Insect Conservation and Australia’s Grasslands. Springer, Cham. https://doi.org/10.1007/978-3-030-22780-7_11
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