Abstract
Declining biodiversity is receiving much attention around the world and green spaces in urban areas can help enhance biodiversity by creating habitat for living organisms especially from the class Insecta. Insects maintain biodiversity on earth and play a key role in the regulation as well as dynamics of many ecosystem services. Insect conservation especially in urban areas can be done by protecting the beneficial habitat from human activity and creating an environment with modifications to facilitate the target insect’s conservation such as creating green roof spaces. In this study, the richness of insect species was assessed from two different vegetation arrangements, vertical and horizontal, from different sampling sites and noting their light intensity, solar radiation and relative humidity. There was no significant correlation between insect species richness and all the three abiotic factors (p > 0.05). However, different plant types; flowering and non-flowering, were found to affect the richness of insect species, with relatively more insect species present at study sites with flowering plants compared to study sites with non-flowering plants (p < 0.05). This information can help to develop a sustainable and comprehensive environment in urban areas.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abbas M, Klein AM, Ebeling A, Oelmann Y, Ptacnik R, Weisser WW, Hillebrand H (2014) Plant diversity effects on pollinating and herbivorous insects can be linked to plant stoichiometry. Basic Appl Ecol 15:169–178
Adedoja OA, Kehinde T, Samways MJ (2018) Insect-flower interaction networks vary among endemic pollinator taxa over an elevation gradient. PLoS One 13(11):e0207453. https://doi.org/10.1371/journal.pone.0207453
Aguilera G, Ekroos J, Persson AS, Pettersson LB, Öckinger E (2019) Intensive management reduces butterfly diversity over time in urban green spaces. Urban Ecosyst 22:335-344. https://doi.org/10.1007/s11252-018-0818-y
Amir AF, Yeok FS, Abdullah A, Rahman AMA (2011) Biofacade for urban development: pest and diseases, its control and prevention. J Sustain Dev 4(5):237-243
Azmy MM, Hosaka T, Numata S (2016) Responses of four hornet species to levels of urban greenness in Nagoya city, Japan: Implications for ecosystem disservices of urban green spaces. Urban For Urban Green 18:117–125
Borror DJ, White RE (1998) A Peterson field guide to insects: America North of Mexico, 2nd edn. Houghton Mifflin Harcourt, Boston NY
Braaker S, Ghazoul J, Obrist M, Moretti M (2014) Habitat connectivity shapes urban arthropod communities: The key role of green roofs. Ecology 95:1010–1021
Burghardt KT, Tallamy DW (2015) Not all non-natives are equally unequal: Reductions in herbivore β-diversity depend on phylogenetic similarity to native plant community. Ecol Lett 18(10):1087–1098
Chen C, Mao L, Qiu Y, Cui J, Wang Y (2020) Walls offer potential to improve urban biodiversity. Sci Rep 10(9905) https://doi.org/10.1038/s41598-020-66527-3
Cheng C, Cheung KK, Chu L (2010) Thermal performance of a vegetated cladding system on facade walls. Build Environ 45:1779–1787
Chowdhury S, Sarkar S, Nandy A, Talapatra SN (2014) Assessment of flower visiting insects diversity as pollinators in two parks, Kolkata, India. Int Lett Nat Sci 15:58-68
Colla SR, Willis E, Packer L (2009) Can green roofs provide habitat for urban bees (Hymenoptera: Apidae)? Cities Environ 2(1): article 4
Corcos D, Cerretti P, Caruso V, Mei M, Falco M, Marini L (2019) Impact of urbanization on predator and parasitoid insects at multiple spatial scales. PLoS One 14(4):e0214068. https://doi.org/10.1371/journal.pone.0214068
De Cauwer B, Reheul D, De Laethauwer S, Nijs I, Milbau A (2006) Effect of light and botanical species richness on insect diversity. Agron Sustain Dev 26:35–43
Dromgold JR, Threlfall CG, Norton BA, Williams NSG (2020) Green roof and ground-level invertebrate communities are similar and are driven by building height and landscape context. J Urban Ecol 6(1). https://doi.org/10.1093/jue/juz024
Ebeling A, Hines J, Hertzog LR, Lange M, Meyer ST, Simons NK, Weisser WW (2018) Plant diversity effects on arthropods and arthropod-dependent ecosystem functions in a biodiversity experiment. Basic Appl Ecol 26:50–63
Elgizawy EM (2016) The effects of green facades in landscape ecology. Procedia Environ Sci 34:119–130
Farid FHM, Ahmad SS, Raub ABA, Shaari MF (2016) Green “breathing facades” for occupants’ improved quality of life. Procedia Soc Behav Sci 234:173–184
Georgi JN, Dimitriou D (2010) The contribution of urban green spaces to the improvement of environment in cities: Case Study Of Chania, Greece. Build Environ 45:1401–1414
Hui SC, Chan K (2011) Biodiversity assessment of green roofs for green building design. In:Proceedings of Joint Symposium 2011 on Integrated Building Design in the New Era of Sustainability, Hong Kong, pp101–108
Hunter MR, Hunter MD (2008) Designing for conservation of insects in the built environment. Insect Conserv Divers 1:189–196
IBM Corp. (2016) IBM SPSS Statistics for Windows, Version 24.0. Armonk, NY: IBM Corp
Jaafar B, Said I, Reba MNM, Rasidi MH (2013) Impact of vertical greenery system on internal building corridors in the tropic. Procedia Soc Behav Sci 105:558–568
Jaganmohan M, Vailshery L, Nagendr H (2013) Patterns of insect abundance and distribution in urban domestic gardens in Bangalore, India. Diversity 5(4):767–778. https://doi.org/10.3390/d5040767
Jiang Y, Jiang S, Shi T (2020) Comparative study on the cooling effects of green space patterns in waterfront build-up blocks: An experience from Shanghai. Int J Environ Res Public Health 17(22):8684
Kadas G (2006) Rare invertebrates colonizing green roofs in London. Urban Habitats 4:66–86
Köhler M, Schmidt M, Wilhelm Grimme F, Laar M, De Assunção L, Paiva V, Tavares S (2002) Green roofs in temperate climates and in the hot-humid tropics–far beyond the aesthetics. Environ Manag Health 13:382–391
Lundholm JT (2006) Green roofs and facades: A habitat template approach. Urban Habitats 4:87–101
Lundholm JT, Richardson PJ (2010) Mini-Review: Habitat analogues for reconciliation ecology in urban and industrial environments. J Appl Ecol 47:966–975
Maclvor JS, Lundholm J (2011) Insect species composition and diversity on intensive green roofs and adjacent level-ground habitats. Urban Ecosys 14:225–241
Madre F, Vergnes A, Machon N, Clergeau PA (2013) comparison of 3 types of green roof as habitats for arthropods. Ecol Eng 57:109–117
Madre F, Clergeau P, Machon N, Vergnes A (2015) Building biodiversity: vegetated façades as habitats for spider and beetle assemblages. Global Ecol Conserv 3:222–233
Manso M, Castro-Gomes J (2015) Green wall systems: a review of their characteristics. Renew Sustain Energy Rev 41:863–871
Marchioro CA, Foerster LA (2016) Biotic factors are more important than abiotic factors in regulating the abundance of Plutella xylostella L., in Southern Brazil. Rev Bras Entomol 60:328–333
Mayrand F, Clergeau P (2018) Green roofs and green walls for biodiversity conservation: A contribution to urban connectivity? Sustainability 10(4):985
Matteson KC, Langellotto GA (2010) Determinates of inner city butterfly and bee species richness. Urban Ecosystems 13:333–347
Medl A, Stangl R, Florineth F (2017) Vertical greening systems–A review on recent technologies and research advancement. Build Environ 125:227–239
Moreira X, Abdala-Roberts L, Rasmann S, Castagneyrol B, Mooney KA (2016) Plant diversity effects on insect herbivores and their natural enemies: current thinking, recent findings, and future directions. Curr Opin Insect Sci 14:1–7
Oberndorfer E, Lundholm J, Bass B, Coffman RR, Doshi H, Dunnett N, Gaffin S, Köhler M, Liu KK, Rowe B (2007) Green roofs as urban ecosystems: Ecological structures, functions, and services. Bioscience 57:823–833
Perner J, Wytrykush C, Kahmen A, Buchmann N, Egerer I, Creutzburg S, Odat N, Audorff V, Weisser WW (2005) Effects of plant diversity, plant productivity and habitat parameters on arthropod abundance in montane European grasslands. Ecography 28:429–442
Pyle R, Bentzien M, Opler P (1981) Insect conservation. Annu Rev Entomol 26:233–258
Qiu L, Lindberg S, Nielsen AB (2013) Is biodiversity attractive?—On-site perception of recreational and biodiversity values in urban green space. Landsc Urban Plan 119:136–146
Rousseaux MC, Ballaré CL, Scopel AL, Searles PS, Caldwell MM (1998) Solar ultraviolet-B radiation affects plant-insect interactions in a natural ecosystem of Tierra del Fuego (southern Argentina). Oecologia 116:528–535
Schowalter T, Noriega J, Tscharntke T (2018) Insect effects on ecosystem services—Introduction. Basic Appl Ecol 26:1–7
Scriven LA, Sweet MJ, Port GR (2013) Flower density is more important than habitat type for increasing flower visiting insect diversity. Int J Ecol 2013:12
Shannon CE, Weaver W (1963) The mathematical theory of communication. University of Illinois Press.Urbana, IL.
Sheweka SM, Mohamed NM (2012) Green facades as a new sustainable approach towards climate change. Energy Procedia 18:507–520
Simpson EH (1949) Measurement of diversity. Nature 163:688
Sørensen T (1948) A method of establishing groups of equal amplitude in plant sociology based on similarity of species and its application to analyses of the vegetation on Danish commons. Biologiske Skrifter
Uyttenbroeck R, Piqueray J, Hatt S, Mahy G, Monty A (2017) Increasing plant functional diversity is not the key for supporting pollinators in wildflower strips. Agr Ecosyst Environ 249:144–155
Williams NS, Lundholm J, Scott Maclvor J (2014) Do green roofs help urban biodiversity conservation? J Appl Ecol 51:1643–1649
Wolch JR, Byrne J, Newell JP (2014) Urban green space, public health, and environmental justice: The challenge of making cities ‘just green enough.’ Landsc Urban Plan 125:234–244
Zapparoli M (1997) Urban development and insect biodiversity of the Rome area, Italy. Landsc Urban Plan 38:77–86
Acknowledgments
We thank Universiti Sains Malaysia, Asia Hills The Courtyard Villas, Penang World City Sales Gallery and Klinik Rakyat Gelugor for their cooperation as well as providing the sampling area.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflicts of Interest
“The authors declare no conflict of interest.”
Additional information
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
Ridzuan, N.H., Farouk, S.A., Razak, S.A. et al. Insect biodiversity of urban green spaces in Penang Island, Malaysia. Int J Trop Insect Sci 42, 275–284 (2022). https://doi.org/10.1007/s42690-021-00543-2
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s42690-021-00543-2