Abstract
Severe decline in terrestrial insect species richness, abundance, flying biomass, and local extinctions across Europe are cause for alarm. Here, we summarize this decline, and identify species affected most. We then focus on the species that might respond best to mitigation measures relative to their traits. We review apparent drivers of decline, and critically reflect on strengths and weaknesses of existing studies, while emphasising their general significance. Generality of recent scientific findings on insect decline have shortcomings, as results have been based on irregular time series of insect inventories, and have been carried out on restricted species sets, or have been undertaken only in a particular geographical area. Agricultural intensification is the main driver of recent terrestrial insect decline, through habitat loss, reduced functional connectivity, overly intense management, nitrogen influx, and use of other fertilisers, as well as application of harmful pesticides. However, there are also supplementary and adversely synergistic factors especially climate change, increasingly intense urbanisation, and associated increase in traffic volume, artificial lighting and environmental pollution. Despite these various synergistic impacts, there are mitigating factors that can be implemented to stem the precipitous insect decline. Science can provide the fundamental information on potential synergistic and antagonistic mechanisms of multiple drivers of insect decline, while implementation research can help develop alternative approaches to agriculture and forestry to mitigate impacts on insects. We argue for more nature-friendly land-use practices to re-establish Europe’s insect diversity.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
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
Baur B, Cremene C, Groza G, Rakosy L, Schileyko AA, Baur A, Stoll P, Erhardt A (2006) Effects of abandonment of subalpine hay meadows on plant and invertebrate diversity in Transylvania, Romania. Biol Conserv 132:261–273
Bianchi FJJA, Booij CJH, Tscharntke T (2006) Sustainable pest regulation in agricultural landscapes: a review on landscape composition, biodiversity and natural pest control. Proc Roy Soc B 273:1715–1727
Biesmeijer JC, Roberts SPM, Reemer M, Ohlemuller R, Edwards M, Peeters T, Schaffers AP, Potts SG, Kleukers R, Thomas CD, Settele J, Kunin WE (2006) Parallel declines in pollinators and insect-pollinated plants in Britain and the Netherlands. Science 313:351–354
Birkhofer K, Smith HG, Weisser WW, Wolters V, Gossner MM (2015) Land-use effects on the functional distinctness of arthropod communities. Ecography 38:889–900
Brittain CA, Vighi M, Bommarco R, Settele J, Potts SG (2010) Impacts of a pesticide on pollinator species richness at different spatial scales. Basic Appl Ecol 11:106–115
Brooks DR, Bater JE, Clark SJ, Montoth DJ, Andrews C, Corbett SJ, Beaumont DA, Chapman JW (2012) Large carabid beetle declines in a United Kingdom monitoring network increases evidence for a widespread loss of insect biodiversity. J Appl Ecol 49:1009–1019
Cleary DFR, Boyle TJB, Setyawati T, Anggraeni CD, Van Loon EE, Menken SBJ (2007) Bird species and traits associated with logged and unlogged forest in Borneo. Ecol Appl 17:1184–1197
Conrad KF, Woiwod IP, Parsons M, Fox R, Warren MS (2004) Long-term population trends in widespread British moths. J Insect Conserv 8:119–136
Conrad KF, Warren MS, Fox R, Parsons MS, Woiwod IP (2006) Rapid declines of common, widespread British moths provide evidence of an insect biodiversity crisis. Biol Cons 132:279–291
Crowder DW, Northfield TD, Gomulkiewicz R, Snyder WE (2012) Conserving and promoting evenness: organic farming and fire-based wildland management case studies. Ecology 93:2001–2007
Cunningham SA, Attwood SJ, Bawa KS, Benton TG, Broadhurst LM, Didham RK, McIntyre S, Perfecto I, Samways MJ, Tscharntke T, Vandermeer J, Villard M-A, Young AG, Lindenmayer DB (2013) To close the yield-gap while saving biodiversity will require multiple locally relevant strategies. Agri Ecosyst Environ 173:20–27
De Jong FMW, De Snoo GR, Van de Zande JC (2008) Estimated nationwide effects of pesticide spray drift on terrestrial habitats in the Netherlands. J Env Manag 87:721–730
Dempster JP (1975) Animal population ecology. Academic Press, London
Den Boer PJ (1985) Fluctuations of density and survival of carabid populations. Oecologia 67:22–330
Dennis RLH, Eales HT (1997) Patch occupancy in Coenonympha tullia (Muller, 1764) (Lepidoptera: Satyrinae): habitat quality matters as much as patch size and isolation. J Insect Conserv 1:167–176
Desender K, Dekoninck W, Dufrêne M, Maes D (2010) Changes in the distribution of carabid beetles in Belgium revisited: have we halted the diversity loss? Biol Conserv 143:1549–1557
Desneux N, Decourtye A, Delpuech J-M (2007) The sub-lethal effects of pesticides on beneficial arthropods. Ann Rev Entomol 52:81–106
Ebert G, Rennwald E (1991) Die Schmetterlinge Baden-Württembergs. Band 1 and 2. Ulmer, Stuttgart
Eskildsen A, Carvalheiro LG, Kissling WD, Biesmeijer JC, Schweiger O, Høye TT (2015) Ecological specialization matters: long-term trends in butterfly species richness and assemblage composition depend on multiple functional traits. Div. Distrib 21:792–802
European Community (2015) Natura 2000 Barometer. Natura 2000 Newsletter, 37, 8–9
European Economic Community (1992) Council Directive 92/43/EEC of 21 May 1992 on the conservation of natural habitats and of wild fauna and flora. Off J L206:7–50
Filz KJ, Engler JO, Stoffels J, Weitzel M, Schmitt T (2013) Missing the target? A critical view on butterfly conservation efforts on calcareous grasslands in south-western Germany. Biodiv Conserv 22:2223–2241
Fox R (2013) The decline of moths in great Britain: a review of possible causes. Insect Conserv Divers 6:5–19
Freemark K, Boutin C (1995) Impacts of agricultural herbicide use on terrestrial wildlife in temperate landscapes: review with special reference to North America. Agric Ecosyst Environ 52:67–91
Frost KR, Ware GW (1970) Pesticide drift from aerial and ground applications. Agric Eng 51:460–464
Gabriel D, Sait SM, Kunin WE, Benton TG (2013) Food production vs. biodiversity: comparing organic and conventional agriculture. J Appl Ecol 50:355–364
Gangwani K, Landin J (2018) The decline of insect representation in biology textbooks over time. Am Entomol 64:252–257
Garibaldi LA, Pérez-Méndez N, Garratt MPD, Gemmill-Herren B, Miguez FE, Dicks LV (2019) Policies for ecological intensification of crop production. Trends Ecol Evol. https://doi.org/10.1016/j.tree.2019.01.003
Geiger F, Bengtsson J, Berendse F, Weisser WW, Emmerson M, Morales MB, Ceryngier P, Liira J, Tscharntke T, Winqvist C, Eggers S, Bommarco R, Pärt T, Bretagnolle V, Plantegenest M, Clement LW, Dennis C, Palmer C, Oñate JJ, Guerrero I, Hawro V, Aavik T, Thies C, Flohre A, Hänke S, Fischer C, Goedhart PW, Inchausti P (2010) Persistent negative effects of pesticides on biodiversity and biological control potential on European farmland. Basic Appl Ecol 11:97–105
Gelbrecht J, Clemens F, Kretschmer H, Landeck I, Reinhardt R, Richert A, Schmitz O, Rämisch F (2016) Die Tagfalter von Brandenburg und Berlin (Lepidoptera: Rhopalocera und Hesperiidae). N&L 3/4
Gómez-Rodriguez C, Baselga A (2018) Variation among European beetle taxa in pattern of distance decay of similarity suggests a major role of dispersal processes. Ecography 14:1825–1834
Gossner MM, Müller J (2011) The influence of species traits and q-metrics on scale-specific β-diversity components of arthropod communities of temperate forests. Landscape Ecol 26:411–424
Gossner MM, Lachat T, Brunet J, Isacsson G, Bouget C, Brustel H, Brandl R, Weisser WW, Müller J (2013) Current near-to-nature forest management effects on functional trait composition of saproxylic beetles in beech forests. Conserv Biol 27:605–614
Gossner MM, Lewinsohn TM, Kahl T, Grassein F, Boch S, Prati D, Birkhofer K, Renner SC, Sikorski J, Wubet T, Arndt H, Baumgartner V, Blaser S, Blüthgen N, Börschig C, Buscot F, Diekötter T, Jorge LR, Jung K, Keyel AC, Klein A-M, Klemmer S, Krauss J, Lange M, Müller J, Overmann J, Pašalić E, Penone C, Perović DJ, Purschke O, Schall P, Socher SA, Sonnemann I, Tschapka M, Tscharntke T, Türke M, Venter PC, Weiner CN, Werner M, Wolters V, Wurst S, Westphal C, Fischer M, Weisser WW, Allen E (2016) Land-use intensification causes multitrophic homogenization of grassland communities. Nature 540:266–269
Guenat S, Kunin WE, Dougill AJ, Dallimer M (2019) Effects of urbanisation and management practices on pollinators in tropical Africa. J Appl Ecol 56:214–224
Habel JC, Schmitt T (2018) Vanishing of the common species: empty habitats and the role of genetic diversity. Biol Conserv 218:211–216
Habel JC, Rödder D, Schmitt T, Nève G (2011) Global warming will affect the genetic diversity and uniqueness of Lycaena helle populations. Glob Change Biol 17:194–205
Habel JC, Braun J, Fischer C, Weisser WW, Gossner MM (2015) Population restoration of the nocturnal bird Athene noctua in Western Europe: an example of evidence based species conservation. Biodiv Conserv 24:1743–1753
Habel JC, Segerer A, Ulrich W, Torchyk O, Weisser WW, Schmitt T (2016) Butterfly community shifts over 2 centuries. Conserv Biol 30:754–762
Hallmann CA, Sorg M, Jongejans E, Siepel H, Hofland N, Schwan H, Stenmans W, Müller A, Sumser H, Hörren T, Goulson D, Kroon H (2017) More than 75 percent decline over 27 years in total flying insect biomass in protected areas. PLoS ONE 12:e0185809
Hanski I (1999) Habitat connectivity, habitat continuity, and metapopulations in dynamic landscapes. Oikos 87:209–219
Hanski I, Kuussaari M, Nieminen M (1994) Metapopulation structure and migration in the butterfly Melitaea cinxia. Ecology 75:747–762
Haslberger A, Segerer AH (2016) Systematische, revidierte und kommentierte Checkliste der Schmetterlinge Bayerns (Insecta: Lepidoptera). Mitteilungen der Münchner Entomologischen Gesellschaft
Henry M, Béguin M, Requier F, Rollin O, Odoux J-F, Aupinel P, Aptel J, Tchamitchian S, Decourtye A (2012) A common pesticide decreases foraging success and survival in honey bees. Science 336:348–350
Hewitt JE, Thrush SF, Ellingsen KE (2016) The role of rare species identities in spatial patterns of species richness and conservation. Conserv Biol 30:10180–11088
Hochkirch A, Schmitt T, Beninde J, Hiery M, Kinitz T, Kirschey J, Matenaar D, Rohde K, Stoefen A, Wagner N, Zink A, Lötters S, Veith M, Proelss A (2013) Europe needs a new vision for a Natura 2020 network. Conserv Lett 6:462–467
Isaac NJ, Strien AJ, August TA, Zeeuw MP, Roy DB (2014) Statistics for citizen science: extracting signals of change from noisy ecological data. Methods Ecol Evol 5:1052–1060
Isbell F, Calcagno V, Hector A, Connolly J, Harpole WS, Reich PB, Scherer-Lorenzen M, Schmid B, Tilman D, van Ruijven J et al (2011) High plant diversity is needed to maintain ecosystem services. Nature 477:199–202
Iserhard CA, Duarte L, Seraphim N, Freitas AVL (2019) How urbanization affects multiple dimensions of biodiversity in tropical butterfly assemblages. Biodiv Conserv 28:621–638
IUCN (2018) The IUCN red list of threatened species. IUCN, Cambridge
Johnston A, Fink D, Hochachka WM, Kelling S (2018) Estimates of observer expertise improve species distributions from citizen science data. Methods Ecol Evol 9:88–97
Kadlec T, Vrba P, Kepka P, Schmitt T, Konvicka M (2010) Tracking the decline of the once-common butterfly: delayed oviposition, demography and population genetics in the hermit Chazara briseis. Anim Conserv 13:172–183
Klein AM, Vaissiere BE, Cane JH, Steffan-Dewenter I, Cunningham SA, Kremen C, Tscharntke T (2007) Importance of pollinators in changing landscapes for world crops. Proc Roy Soc B 274:303–313
Knowler JT, Flint PWH, Flint S (2016) Trichoptera (Caddisflies) caught by the Rothamsted light trap at Rowardennan, loch Lomondside throughout 2009. Glasg Nat 26:35–42
Kremen C, Miles A (2012) Ecosystem services in biologically diversified versus conventional farming systems: benefits, externalities, and trade-offs. Ecol Soc 17:40
Kunin WE, Harte J, He F, Hui C, Jobe RT, Ostling A, Polce C, Šizling A, Smith AB, Smith K, Smart SM, Storch D, Tjørve E, Ugland K-I, Ulrich W, Varma V (2018) Upscaling biodiversity: estimating the species-area relationship from small samples. Ecol Monogr 9:95
Kuussaari M, Heliölä J, Pöyry J, Saarinen K (2007) Contrasting trends of butterfly species preferring semi-natural grasslands, field margins and forest edges in northern Europe. J Insect Conserv 11:351–366
Lichtenberg EM, Kennedy CM, Kremen C, Batáry P et al (2017) A global synthesis of the effects of diversified farming systems on arthropod diversity within fields and across agricultural landscapes. Glob Change Biol 23:4946–4957
Losey JE, Vaughan M (2006) The economic value of ecological services provided by insects. Bioscience 56:311–323
Lyons SK, Amatangelo KL, Behrensmeyer AK, Bercovici A, Blois JL, Davis M, DiMichele WA, Du A, Eronen JT, Faith JT, Graves GR, Jud N, Labandeira C, Looy CV, McGill B, Miller JH, Patterson D, Pineda-Munoz S, Potts R, Riddle B, Terry R, Tóth A, Ulrich W, Villaseñor A, Wing S, Anderson H, Anderson J, Waller D, Gotelli NJ (2016) Holocene shifts in the assembly of plant and animal communities implicate human impacts. Nature 529:80–83
Martin AE, Graham SL, Henry M, Pervin E, Fahrig L (2018) Flying insect abundance declines with increasing road traffic. Insect Conserv Divers 11:608–613
Mayfield MM, Bonser SP, Morgan JW, Aubin I, McNamara S, Vesk PA (2010) What does species richness tell us about functional trait diversity? Predictions and evidence for responses of species and functional trait diversity to land-use change. Glob Ecol Biogeogr 19:423–431
McGill BJ, Dornelas M, Gotelli NJ, Magurran AE (2015) Fifteen forms of biodiversity trend in the Anthropocene. Trends Ecol Evol 30:104–113
McLaughlin JF, Hellmann JJ, Boggs CL, Ehrlich PR (2002) Climate change hastens population extinctions. PNAS 30:6070–6074
Mehr M, Brandl R, Hothorn T, Dziock F, Förster B, Müller J (2011) Land use is more important than climate for species richness and composition of bat assemblages on a regional scale. Mamm Biol 76:451–460
Morris MG, Clarke RT, Rispin WE (2005) The success of a rotational grazing system in conserving the diversity of chalk grassland Auchenorrhyncha. J Insect Conserv 9:363–374
Mouchet MA, Villeger S, Mason NWH, Mouillot D (2010) Functional diversity measures: an overview of their redundancy and their ability to discriminate community assembly rules. Funct Ecol 24:867–876
Müller J, Brunet J, Brin A, Bouget C, Brustel H, Bussler H, Förster B, Gunnar I, Köhler F, Thibault L, Gossner MM (2012) Implications from large-scale spatial diversity patterns of saproxylic beetles for the conservation of European Beech forests. Insect Conserv Div 6:162–169
Myers JH (2018) Population cycles: generalities, exceptions and remaining mysteries. Proc R Soc B 285:20172841
Noordijk J, Schaffers AP, Heijerman T, Boer P, Gleichman M, Sýkora KV (2010) Effects of vegetation management by mowing on ground-dwelling arthropods. Ecol Eng 36:740–750
Paniatowski D, Hertenstein F, Raude N, Rottbehüt K, Nickel H, Fartmann T (2018) The invasion of Bromus erectus alters species diversity of vascular plants and leafhoppers in calcareous grasslands. Insect Conserv Div 11:578–586
Perović D, Gámez-Virués S, Börschig C, Klein A-M, Krauss J, Steckel J, Rothenwöhrer C, Erasmi S, Erasmi S, Tscharntke T, Westphal C (2015) Configurational landscape heterogeneity shapes functional community composition of grassland butterflies. J Appl Ecol 52:505–513
Ponisio LC, M’Gonigle LK, Mace KC, Palomino J, de Valpine P, Kremen C (2015) Diversification practices reduce organic to conventional yield gap. Proc R Soc B 282(1799):20141396
Potts SG, Biesmeijer JC, Kremen C, Neumann P, Schweiger O, Kunin WE (2010) Global pollinator declines: trends, impacts and drivers. Trends Ecol Evol 25:345–353
Puech C, Baudry J, Joannon A, Poggi S, Aviron S (2014) Organic vs. conventional farming dichotomy: does it make sense for natural enemies? Agricult Ecosys Env 194:48–57
Rada S, Schweiger O, Harpke A, Kühn E, Kuras T, Settele J, Musche M (2019) Protected areas do not mitigate biodiversity declines: A case study on butterflies. Div Distrib. https://doi.org/10.1111/ddi.12854
Ranjha MH, Irmler U (2014) Movement of carabids from grassy strips to crop land in organic agriculture. J Insect Conserv 18:457–467
Reichholf JH (2005) Zweimal zwei Brennnesselfalter: unterschiedliche Bestandsentwicklungen von Inachis io (Linnaeus, 1758), Aglais urticae (Linnaeus, 1758), Eurrhypara hortulata (Linnaeus, 1758) und Pleurotypa ruralis (Scopoli, 1763) bei gleichen Raupenfutterpflanzen (Lepidoptera, Nymphalidae et Pyralidae). Atlanta 36:449–456
Reichholf JH (2006) Starker Rückgang der Auenwald-Winkeleule Mesogona oxalina Hübner, 1803, im niederbayerischen Inntal (Lepidoptera, Noctuidae). Entomologische Nachrichten und Berichte 225–228
Reichholf JH (2008) Starker Rückgang des Rotrandspanners Calothysanis amata L. am unteren Inn. Mitteilungen der Zoologischen Gesellschaft Braunau 283–287
Reidsma P, Tekelenburg T, van den Berg M, Alkemade R (2006) Impacts of land-use change on biodiversity: an assessment of agricultural biodiversity in the European Union. Agric Ecosyst Environ 114:86–102
Rundlöf M, Nilsson H, Smith HG (2008) Interacting effects of farming practice and landscape context on bumble bees. Biol Conserv 141:417–426
Rundlöf M, Andersson GKS, Bommarco R, Fries I, Hederström V, Herbertsson L, Jonsson O, Klatt BK, Pedersen TR, Yourstone J, Smith HG (2015) Seed coating with a neonicotinoid insecticide negatively affects wild bees. Nature 521:77–80
Samways MJ (2007) Rescuing the extinction of experience. Biodiv Conserv 16:1995–1997
Samways MJ (2018) Insect conservation for the twenty-first century. In: Shah MM, Sharif U (eds) Insect science-diversity, conservation and nutrition. IntechOpen. https://doi.org/10.5772/intechopen.73864
Samways MJ (2019) Insect conservation: a global synthesis. CABI, Wallingford
Samways MJ, McGeoch MA, New TR (2010) Insect conservation: approaches and methods. Oxford University Press, Oxford
Sánchez-Bayo F, Wyckhuys KAG (2019) Worldwide decline of the entomofauna: a review of its drivers. Biol Conserv 232:8–27
Saunders M (2017) Insects in decline: why we need more studies like this. https://ecologyisnotadirtyword.com/2017/10/20/insects-in-decline-why-we-need-more-studies-like-this/. Accessed 31 8, 2018
Saunders ME, Roger E, Geary WL, Meredith F, Welbourne DJ et al (2018) Citizen science in schools: engaging students in research on urban habitat for pollinators. Austral Ecol 43:635–642
Schneider MK, Lüscher G, Jeanneret P, Arndorfer M, Ammari Y et al (2014) Gains to species diversity in organically farmed fields are not propagated at the farm level. Nat Commun 5:4151–4158
Schowalter TD (2011) Insect ecology: an ecosystem approach. Academic Press, San Diego
Segerer A, Neumayr L, Neuner A (1987) Interessante „Makrolepidopteren“-Funde aus Regensburg und Umgebung (1). Galathea 33:2–23
Settele J, Kudrna O, Harpke A, Kuhn I, van Swaay C, Vervonik R, Warren M, Wiemers M, Hanspach J, Hickler T, Kuhn E, van Halder I, Veling K, Vliegenthart A, Wynhoff I, Schweiger O (2008) Climatic risk atlas of European butterflies. BioRisk 1:1–710
Seufert V, Ramankutty N, Foley J (2012) Comparing the yields of organic and conventional agriculture. Nature 485:22–232
Shortall CR, Moore A, Smith E, Hall MJ, Woiwod IP, Harrington R (2009) Long-term changes in the abundance of flying insects. Insect Cons Div 2:251–260
Simaika JP, Samways MJ (2018) Insect conservation psychology. J Insect Conserv 22:1133–1143
Simons NK, Weisser WW, Gossner MM (2016) Multi-taxa approach shows consistent shifts in arthropod functional traits along grassland land-use intensity gradient. Ecology 97:754–764
Simons NK, Lewinsohn T, Blüthgen N, Buscot F, Boch S, Daniel R, Gossner MM, Jung K, Kaiser K, Müller J, Prati D, Renner SC, Socher SA, Sonnemann I, Weiner CN, Werner M, Wubet T, Wurst S, Weisser WW (2017) Contrasting effects of grassland management modes on species-abundance distributions of multiple groups. Agric Ecosyst Environ 237:143–153
Siviter H, Brown MJF, Leadbeater E (2018) Sulfoxaflor exposure reduces bumblebee reproductive success. Nature 561:109–112
Stevens CJ, Dise NB, Mountford JO, Gowing DJ (2004) Impact of nitrogen deposition on the species richness of grasslands. Science 303:1876–1878
Storkey J, MacDonald AJ, Bell JR, Clark IM, Gregory AS, Hawkin NJ, Hirsch PR, Todman LC, Whitmore AP (2016) Chapter one—the unique contribution of Rothamsted to ecological research at large temporal scales. Adv Ecol Res 55:3–42
Swinton AH (1880) Insect variety: its propagation and distribution. Cassell Petter and Galpin, London
Szabo JK, Vesk PA, Baxter PW, Possingham HP (2010) Regional avian species declines estimated from volunteer-collected long-term data using list length analysis. Ecol Appl 20:2157–2169
Theiling KM, Croft BA (1988) Pesticide side-effects on arthropod natural enemies: a database summary. Agric Ecosyst Environ 21:191–218
Thomas JA (2005) Monitoring change in the abundance and distribution of insects using butterflies and other indicator groups. Philos Trans R Soc B 360:229–257
Thomas JA (2016) Butterfly communities under threat. Science 353:216–218
Thomas JA, Bourn NAD, Clarke RT, Stewart KE, Simcox DJ, Pearman GS, Curtis R, Goodger B (2001) The quality and isolation of habitat patches both determine where butterflies persist in fragmented landscapes. Proc R Soc B 268:1791–1796
Thomas AG, Telfer MG, Roy DB, Preston CD, Greenwood JJD, Asher J, Fox R, Clarke RT, Lawton JH (2004) Comparative losses of British butterflies, birds, and plants and global extinction crisis. Science 303:1879–1881
Thomas JA, Simcox DJ, Clarke RT (2009) Successful conservation of a threatened Maculinea butterfly. Science 325:80–83
Thorn S, Hacker HH, Seibold S, Jehl H, Bässler C, Müller J (2015) Guild-specific responses of forest Lepidoptera highlight conservation oriented forest management—implications from conifer-dominated forests. Forest Ecol Manag 337:41–47
Toivonen M, Herzon I, Kuussaari M (2016) Community composition of butterflies and bumblebees in fallows: niche breadth and dispersal capacity modify responses to fallow type and landscape. J Insect Conserv 20:23–34
Travis JMJ (2003) Climate change and habitat destruction: a deadly anthropogenic cocktail. Proc R Soc Lond B 270:467–473
Tuck SL, Winqvist C, Mota F, Ahnström J, Turnbull LA, Bengtsson J (2014) Land-use intensity and the effects of organic farming on biodiversity: a hierarchical meta-analysis. J Appl Ecol 51:746–755
Ulrich W, Zalewski M, Hajdamowicz I, Stańska M, Ciurzycki W, Tykarski P (2013) Towards a general species –time–area–sampling effort relationship. Polish J Ecol 61:345–354
Ulrich W, Baselga A, Kusumoto B, Shiono T, Tuomisto H, Kubota Y (2017a) The tangled link between β- and γ-diversity: a Narcissus effect weakens statistical inferences in null model analyses of diversity patterns. Glob Ecol Biogeogr 26:1–5
Ulrich W, Kryszewski W, Sewerniak P, Puchałka R, Strona G, Gotelli NJ (2017b) A comprehensive framework for the study of species co-occurrences, nestedness and turnover. Oikos 126:1607–1616
Ulrich W, Kubota Y, Kusumoto B, Baselga A, Tuomisto H, Gotelli NJ (2018) Species richness correlates of raw and standardized co-occurrence metrics. Glob Ecol Biogeogr 27:395–399
Van Swaay C, Cuttelod A, Collins S, Maes D, López Munguira M, Šašić M, Settele J, Verovnik R, Verstrael T, Warren M, Wiemers M, Wynhof I (2010) European Red List of Butterflies. Publications Office of the European Union, Luxembourg
Vandewalle M, De Bello F, Berg MP, Bolger T, Dolédec S, Dubs F, Feld CK, Harrington R, Harrison PA, Lavorel S, da Silva P, Moretti M, Niemelä J, Santos P, Sattler T, Sousa J, Sykes M, Vanbergen A, Woodcock B (2010) Functional traits as indicators of biodiversity response to land use changes across ecosystems and organisms. Biodiv Conserv 19:2921–2947
WallisDeVries MF, van Swaay CAM (2017) A nitrogen index to track changes in butterfly species assemblages under nitrogen deposition. Biol Conserv 212:448–453
Wenzel M, Schmitt T, Weitzel M, Seitz A (2006) The severe decline of butterflies on western German calcareous grasslands during the last 30 years: a conservation problem. Biol Conserv 128:542–552
Wilsey BJ, Martin LM, Kaul AD (2018) Phenology differences between native and novel exotic-dominated grasslands rival the effects of climate change. J Appl Ecol 55:863–873
Wilson JF, Baker D, Cheney J, Cook M, Ellis M, Freestone R, Gardner D, Geen G, Hemming R, Hodgers D, Howarth S, Jupp A, Lowe N, Orridge S, Shaw M, Smith B, Turner A, Young H (2018) A role for artificial night-time lighting in long-term changes in populations of 100 widespread macro-moths in UK and Ireland: a citizen-science study. J Insect Conserv 22:189–196
Woodcock BA, Bullock JM, Shore RF, Heard MS, Pereira MG et al (2017) Country-specific effects of neonicotinoid pesticides on honey bees and wild bees. Science 356:1393–1395
Yekwayo I, Pryke JS, Gaigher R, Samways MJ (2018) Only multi-taxon studies show the full range of arthropod responses to fire. PLoS ONE 13(4):e0195414
Acknowledgements
We thank two anonymous referees for helpful comments to improve our article.
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by P. Ponel.
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Habel, J.C., Samways, M.J. & Schmitt, T. Mitigating the precipitous decline of terrestrial European insects: Requirements for a new strategy. Biodivers Conserv 28, 1343–1360 (2019). https://doi.org/10.1007/s10531-019-01741-8
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10531-019-01741-8