Abstract
Semi-natural grasslands in Japan have decreased due to management abandonment and urbanization over the last 100 years, but they remain in suburban areas in addition to rural areas. Because suburban grasslands have various land-use histories and disturbance regimes, plant and herbivorous insect communities are likely to differ among grassland types. To identify grasslands with high conservation value, we conducted a comprehensive survey of grasshoppers and plants in 150 grasslands with 5 grassland types differing in land-use history and current management in northern Chiba prefecture, Japan. We then analyzed the association of the distributions of grasshopper and plant species compositions. Our results showed that grasshoppers were classified into habitat specialists and generalists. Three out of four habitat specialists were almost exclusively found in semi-natural grasslands and vacant lots, while habitat generalists were commonly observed at the cropland margins. This habitat specialist–generalist distribution gradient corresponded well to that found in plant communities, which was probably due to current disturbance regimes. We suggest that vacant lots as well as semi-natural grasslands have high conservation value for grassland organisms of various taxa in suburban areas, and grasshoppers are candidate indicator species for monitoring grassland environments.
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References
Albrecht H, Haider S (2013) Species diversity and life history traits in calcareous grasslands vary along an urbanization gradient. Biodivers Conserv 22(10):2243–2267
Albrecht H, Eder E, Langbehn T, Tschiersch C (2011) The soil seed bank and its relationship to the established vegetation in urban wastelands. Landsc Urban Plan 100(1–2):87–97
Anderson MJ (2001) A new method for non-parametric multivariate analysis of variance. Austral Ecol 26(1):32–46
Anderson EC, Minor ES (2020) Management effects on plant community and functional assemblages in Chicago’s vacant lots. Appl Veg Sci 23(2):266–276
Ando Y, Yamashiro C (1993) Outbreaks and delayed hatching after hibernation in the rice grasshopper, Oxya yezoensis Shiraki (Orthoptera: Catantopidae). Appl Entomol Zool 28(2):217–225
Bohnenblust E, Egan JF, Mortensen D, Tooker J (2013) Direct and indirect effects of the synthetic-auxin herbicide dicamba on two lepidopteran species. Environ Entomol 42(3):586–594
Bonthoux S, Brun M, Di Pietro F, Greulich S, Bouché-Pillon S (2014) How can wastelands promote biodiversity in cities? A review. Landsc Urb Plan 132:79–88
Borchard F, Schulte AM, Fartmann T (2013) Rapid response of Orthoptera to restoration of montane heathland. Biodivers Conserv 22(3):687–700
Brückmann SV, Krauss J, Steffan-Dewenter I (2010) Butterfly and plant specialists suffer from reduced connectivity in fragmented landscapes. J Appl Ecol 47(4):799–809
Bureau of Environment of Tokyo Metropolitan Government (2013) Threatened species of Tokyo prefecture (Mainland Section): Tokyo Red List 2013. Bureau of Environment Tokyo Metropolitan Government (in Japanese)
Cease AJ, Elser JJ, Ford CF, Hao S, Kang L, Harrison JF (2012) Heavy livestock grazing promotes locust outbreaks by lowering plant nitrogen content. Science 335(6067):467–469
Chiba prefecture (1983) The history of Chiba Prefecture. Chiba Prefecture Planning Department, Public Relations Division (in Japanese)
Chiba prefecture (2017) Wildlife of conservation importance in Chiba prefecture. Red list of plants and fungi (ed) Chiba (in Japanese)
Clavel J, Julliard R, Devictor V (2011) Worldwide decline of specialist species: toward a global functional homogenization? Front Ecol Environ 9(4):222–228
Collins SL, Glenn SM, Gibson DJ (1995) Experimental analysis of intermediate disturbance and initial floristic composition: decoupling cause and effect. Ecology 76(2):486–492
Deák B, Valkó O, Török P, Kelemen A, Bede Á, Csathó AI, Tóthmérész B (2018) Landscape and habitat filters jointly drive richness and abundance of specialist plants in terrestrial habitat islands. Landsc Ecol 33(7):1117–1132
Driscoll DA, Banks SC, Barton PS, Lindenmayer DB, Smith AL (2013) Conceptual domain of the matrix in fragmented landscapes. Trends Ecol Evol 28(10):605–613
Dufrêne M, Legendre P (1997) Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecol Monogr 67(3):345–366
Eckert S, Möller M, Buchholz S (2017) Grasshopper diversity of urban wastelands is primarily boosted by habitat factors. Insect Conserv Divers 10(3):248–257
Fartmann T, Krämer B, Stelzner F, Poniatowski D (2012) Orthoptera as ecological indicators for succession in steppe grassland. Ecol Ind 20:337–344
Gámez-Virués S, Perović DJ, Gossner MM, Börschig C, Blüthgen N, De Jong H, Scherber C (2015) Landscape simplification filters species traits and drives biotic homogenization. Nat Commun 6(1):1–8
Gardiner MM, Burkman CE, Prajzner SP (2013) The value of urban vacant land to support arthropod biodiversity and ecosystem services. Environ Entomol 42(6):1123–1136
Geographical Information Authority of Japan (GSI). https://mapps.gsi.go.jp/maplibSearch.do#1. Accessed 15 Oct 2019 (in Japanese)
Habel JC, Dengler J, Janišová M, Török P, Wellstein C, Wiezik M (2013) European grassland ecosystems: threatened hotspots of biodiversity. Biodivers Conserv 22(10):2131–2138
Hanski I (1999) Metapopulation ecology. Oxford University Press, Oxford
Hiradate S, Morita S, Kusumoto Y (2008) Effects of soil chemical properties on the habitats of alien and endemic plants. Nougyougijutsu 63(10):469–474 ((in Japanese))
Ishida H, Kuroda A, Tochimoto D, Ema K (2013) Comparison of the ecological characteristics of semi-natural grasslands established on levee slopes of traditional paddy fields, abandoned traditional paddy fields, and reconstructed paddy fields in Northern Hyogo Prefecture. Jpn Soc Veg Sci 30(1):51–69 ((in Japanese with English abstract))
Ishiguro K (1994) Control threshold of the rice grasshopper Oxya yezoensis Shiraki on paddy rice. Bull Yamagata Agric Exp Stn 28:57–68 ((in Japanese with English abstract))
Japan Ministry of the Environment (2019) Ministry of the Environment Red List 2019. https://www.env.go.jp/press/106383.html. Accessed 18 Mar 2020 (in Japanese)
Japanese Orthoptera Society (2006) Grasshopper, Cricket and Katydid illustrated book. Hokkaido University Press (in Japanese)
Joern A (1979) Feeding patterns in grasshoppers (Orthoptera: Acrididae): factors influencing diet specialization. Oecologia 38(3):325–347
Joern A (1982) Vegetation structure and microhabitat selection in grasshoppers (Orthoptera, Acrididae). Southwestern Nat 27(2):197–209
Johnson AL, Tauzer EC, Swan CM (2015) Human legacies differentially organize functional and phylogenetic diversity of urban herbaceous plant communities at multiple spatial scales. Appl Veg Sci 18(3):513–527
Johnson AL, Borowy D, Swan CM (2018) Land use history and seed dispersal drive divergent plant community assembly patterns in urban vacant lots. J Appl Ecol 55(1):451–460
Kaneko K, Mimura K, Amano M, Hasegawa M (2009) Flora of grassland with different of management practices in Shiroi-city, Chiba Prefecture. Landsc Ecol Manag 14(2):163–176 ((in Japanese with English abstract))
Kidokoro T, Kondoh Y (1998) Farmer’s awareness of the occurrence and abundance of the rice grasshopper [Oxya yezoensis] in Tohoku district [Japan]. Annu Rep Soc Plant Prot North Jpn 49:109–112 ((in Japanese))
Klaus VH (2013) Urban grassland restoration: a neglected opportunity for biodiversity conservation. Restor Ecol 21(6):665–669
Knuff AK, Staab M, Frey J, Helbach J, Klein AM (2019) Plant composition, not richness, drives occurrence of specialist herbivores. Ecol Entomol 44(6):833–843
König S, Krauss J (2019) Get larger or grow longer wings? Impacts of habitat area and habitat amount on orthopteran assemblages and populations in semi-natural grasslands. Landsc Ecol 34(1):175–186
Kormann U, Rösch V, Batáry P, Tscharntke T, Orci KM, Samu F, Scherber C (2015) Local and landscape management drive trait-mediated biodiversity of nine taxa on small grassland fragments. Divers Distrib 21(10):1204–1217
Koyanagi TF, Furukawa T (2013) Nation-wide agrarian depopulation threatens semi-natural grassland species in Japan: sub-national application of the Red List Index. Biol Conserv 167:1–8
Koyanagi T, Kusumoto Y, Katsutoshi Y, Oguro T, Ide T, Takeuchi K (2007) Comparison of the species compositions between past and present semi-natural Miscanthus sinensis grassland in the Kanto plain. J Jpn Inst Landsc Archit 70(5):439–444 ((in Japanese with English abstract))
Legendre P, Legendre LF (2012) Numerical ecology. Elsevier, Oxford, pp 512–520
Masaki S, Murai T, Ito F (2011) Life history of grasshopper, cricket and Katydid illustrated book, fourth and sixth editions. Hokkaido University Press, Hokkaido (in Japanese)
Matumura T, Uchida K, Sawada Y (2014) Conditions and conservation for biodiversity of the semi-natural grassland vegetation on rice paddy levees. Soc Veg Sci 31(2):193–218 ((in Japanese with English abstract))
Michaud JP, Vargas G (2010) Relative toxicity of three wheat herbicides to two species of Coccinellidae. Insect Sci 17(5):434–438
Morris MG (2000) The effects of structure and its dynamics on the ecology and conservation of arthropods in British grasslands. Biol Conserv 95(2):129–142
Nagata YK, Ushimaru A (2016) Traditional burning and mowing practices support high grassland plant diversity by providing intermediate levels of vegetation height and soil pH. Appl Veg Sci 19(4):567–577
Nakahama N, Uchida K, Ushimaru A, Isagi Y (2018) Historical changes in grassland area determined the demography of semi-natural grassland butterflies in Japan. Heredity 121(2):155–168
Nakamura M (2007) Kashiwa City Board of Education Kashiwa City website. http://www.city.kashiwa.lg.jp/soshiki/280400/p007312.html Accessed 25 Mar 2020 (in Japanese)
Noda A, Kondoh A, Nishihiro J (2019) Changes in land cover and grassland area over the past 120 years in a rapidly urbanised area in Japan. One Ecosyst. https://doi.org/10.3897/oneeco.4.e37669
Norton BA, Bending GD, Clark R, Corstanje R, Dunnett N, Evans KL, Hilton S (2019) Urban meadows as an alternative to short mown grassland: effects of composition and height on biodiversity. Ecol Appl 29(6):1–21
Öckinger E, Dannestam Å, Smith HG (2009) The importance of fragmentation and habitat quality of urban grasslands for butterfly diversity. Landsc Urb Plann 93(1):31–37
Öckinger E, Bergman KO, Franzén M, Kadlec T, Krauss J, Kuussaari M, Bommarco R (2012) The landscape matrix modifies the effect of habitat fragmentation in grassland butterflies. Landsc Ecol 27(1):121–131
Ogura J (2006) Changes in the area of grassland in Japan. Bull Kyoto Seika Univ 30:159–172 ((in Japanese))
Ohwaki A (2018) How should we view temperate semi-natural grasslands? Insights from butterflies in Japan. Glob Ecol Conserv. https://doi.org/10.1016/j.gecco.2018.e00482
Okubo K (2002) The present state in the study of biological diversity on semi-natural grassland in Japan (<Special Feature>activities of biodiversity conservation on semi-natural grassland in Japan). Soc Veg Sci 48(3):268–276 ((in Japanese))
Okuro T, Yoshihara Y, Sasaki Y (2015) Grassland ecology: biodiversity and ecosystem function. Tōkyō Daigaku Shuppankai (in Japanese)
Olsson PA, Ödman AM (2014) Natural establishment of specialist plant species after topsoil removal and soil perturbation in degraded calcareous sandy grassland. Restor Ecol 22(1):49–56
Picaud F, Bonnet E, Gloaguen V, Petit D (2003) Decision making for food choice by grasshoppers (Orthoptera: Acrididae): comparison between a specialist species on a shrubby legume and three graminivorous species. Environ Entomol 32(3):680–688
Poniatowski D, Fartmann T (2008) The classification of insect communities: Lessons from orthopteran assemblages of semi-dry calcareous grasslands in central Germany. Eur J Entomol 105(4):659–671
Saitama Prefecture (2018) Saitama red data book animal edition 2018 (4th edition) Saitama Prefecture Red Data Book, Department of Environment, Midori Shizen Division, Saitama City (in Japanese)
Prosser RS, Anderson JC, Hanson ML, Solomon KR, Sibley PK (2016) Indirect effects of herbicides on biota in terrestrial edge-of-field habitats: A critical review of the literature. Agric Ecosyst Environ 232:59–72
QGIS Development Team (2018) QGIS geographic information system. Open Source Geospatial Foundation Project. http://qgis.osgeo.org. Accessed 13 Mar 2018
R Core Team (2019) R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.r-project.org/. Accessed 21 Jan 2020
Resch MC, Schütz M, Graf U, Wagenaar R, van der Putten WH, Risch AC (2019) Does topsoil removal in grassland restoration benefit both soil nematode and plant communities? J Appl Ecol 56(7):1782–1793
Robin WSM, Rohweder M (2000) Pilot analysis of global ecosystem: grassland ecosystems. World Resour Inst Washington DC 49:29–37
Rudolph M, Velbert F, Schwenzfeier S, Kleinebecker T, Klaus VH (2017) Patterns and potentials of plant species richness in high-and low-maintenance urban grasslands. Appl Veg Sci 20(1):18–27
Schade JD, Kyle M, Hobbie SE, Fagan WA, Elser JJ (2003) Stoichiometric tracking of soil nutrients by a desert insect herbivore. Ecol Lett 6(2):96–101
Schadek U, Strauss B, Biedermann R, Kleyer M (2009) Plant species richness, vegetation structure and soil resources of urban brownfield sites linked to successional age. Urb Ecosyst 12(2):115–126
Schirmel J, Mantilla-Contreras J, Blindow I, Fartmann T (2011) Impacts of succession and grass encroachment on heathland Orthoptera. J Insect Conserv 15(5):633–642
Shibata R (2011) On the report of the “Vitality of Life” survey team. Chiba Biodivers Center Res Rep 3:77–96 ((in Japanese))
Shirahama H (1963) Settlement under Meiji cultivation in Shimosa plateau. Geography 8(5):21–30 ((in Japanese))
Suga T (2010) A history of semi−natural grasslands and its causation to distribution of grassland species (<special feature> biodiversity and semi-natural grasslands—strategies to establish and maintain them-). Jpn Soc Grassl Sci 56(3):225–230 ((in Japanese))
Suga T, Okamoto S Ushimaru A (2012) Grasslands and Japanese ten thousand year journey to the grasslands in Japanese Islands. Tsukiji Shokan, Tokyo (in Japanese)
Sutcliffe LM, Batáry P, Becker T, Orci KM, Leuschner C (2015) Both local and landscape factors determine plant and Orthoptera diversity in the semi-natural grasslands of Transylvania, Romania. Biodivers Conserv 24(2):229–245
Teutsch CD, Tilson WM (2004) Nitrate accumulation in crabgrass as impacted by nitrogen fertilization rate and application timing. Forage Grazinglands 2(1):1–9
Tokumaru H (1992) Bioindicators and data analysis methods: a study on the survey of living things around U. Jpn Soc Environ Entomol Zool 4:45–55 ((in Japanese))
Tsuzuki Y, Koyanagi TF, Miyashita T (2020) Plant community assembly in suburban vacant lots depends on earthmoving legacy, habitat connectivity, and current mowing frequency. Ecol Evol 10(3):1311–1323
Uchida K, Ushimaru A (2014) Biodiversity has been maintained with intermediate disturbance in traditional agricultural lands. Bull Ecol Soc Am 95(4):439–443
Uchida K, Ushimaru A (2015) Land abandonment and intensification diminish spatial and temporal β-diversity of grassland plants and herbivorous insects within paddy terraces. J Appl Ecol 52(4):1033–1043
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
Uematsu Y, Ushimaru A (2013) Topography-and management-mediated resource gradients maintain rare and common plant diversity around paddy terraces. Ecol Appl 23(6):1357–1366
Willott SJ (1997) Thermoregulation in four species of British grasshoppers (Orthoptera: Acrididae). Funct Ecol 11:705–713
Wilson JB, Peet RK, Dengler J, Pärtel M (2012) Plant species richness: the world records. J Veg Sci 23(4):796–802
Woodcock BA, Potts SG, Tscheulin T, Pilgrim E, Ramsey AJ, Harrison-Cripps J, Tallowin JR (2009) Responses of invertebrate trophic level, feeding guild and body size to the management of improved grassland field margins. J Appl Ecol 46(4):920–929
Yamamoto F, Ubukata H (2009) Microhabitat selection of ten Orthopteran species in the vicinity of Kushiro Marsh, Eastern Hokkaido, Japan. Kushiro Ronshu 41:97–104 ((in Japanese with English abstract))
Yamamoto S, Uchida K (2018) A generalist herbivore requires a wide array of plant species to maintain its populations. Biol Conserv 228:167–174
Yoshio M, Kato N, Miyashita T (2009) Landscape and local scale effects on the orthopteran assemblages in the paddy agro-ecosystems on the Sado Island, Japan with implications for the habitat management for the crested ibis. Ecol Civ Eng Soc 12(2):99–107 ((in Japanese with English abstract))
Yuan ZY, Jiao F, Li YH, Kallenbach RL (2016) Anthropogenic disturbances are key to maintaining the biodiversity of grasslands. Sci Rep 6(1):1–8
Acknowledgements
We thank M. Hasegawa for arranging the lodging facility for comfortable field surveys. We appreciate assistance with field surveys from Y. Tsuzuki. We thank M. Yano and all members of the non-profit organization “Harappa to mori no kai” for their support. We thank S. Hattori for local land management information. This study was supported by Japan Society for the Promotion of Science KAKENHI Grant no. 15H04325.
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Nakajima, K., Miyashita, T. Close association between grasshopper and plant communities in suburban secondary grasslands and the indicator value of grasshoppers for conservation. Landscape Ecol Eng 17, 363–374 (2021). https://doi.org/10.1007/s11355-021-00447-w
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DOI: https://doi.org/10.1007/s11355-021-00447-w