Top

Biodiversity and Conservation

Published in:

30-01-2017 | Original Paper

Nestedness of butterfly assemblages in the Zhoushan Archipelago, China: area effects, life-history traits and conservation implications

Authors: Aichun Xu, Xufang Han, Xuemei Zhang, Virginie Millien, Yanping Wang

Published in: Biodiversity and Conservation | Issue 6/2017

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

The nested subset pattern (nestedness) of faunal assemblages has been a research focus in the fields of island biogeography and conservation biology in recent decades. However, relatively few studies have described nestedness in butterfly assemblages in oceanic archipelago systems. Moreover, previous studies often quantified nestedness using inappropriate nestedness metrics and random fill algorithms with high Type I errors. The aims of this study are to examine the existence of nestedness and underlying causal mechanisms of butterfly assemblages in the Zhoushan Archipelago, China. We used the line-transect method to determine butterfly occupancy and abundance on 42 study islands from July to August 2014. We obtained butterfly life-history traits (wingspan, body weight and minimum area requirement) by field work and island geographical features (area and isolation) from the literature. We used the recently developed metric WNODF to estimate nestedness. Partial Spearman rank correlation was used to evaluate the associations of nestedness and island geographical features as well as butterfly life-history traits related to species extinction risk and colonization ability. The butterfly assemblages were significantly nested. Island area and minimum area requirement of butterflies were significantly correlated with nestedness after controlling for other independent variables. In contrast, the nestedness of butterflies did not appear to result from passive sampling or selective colonization. However, multi-year studies are needed to confirm that target effects are not muddling these results. Our results indicate that selective extinction may be the main driver of nestedness of butterfly assemblages in our study system. From a conservation viewpoint, we should protect both large islands and species with large area requirement to maximize the number of species preserved.

previous article Understanding rancher coexistence with jaguars and pumas: a typology for conservation practice

next article “No signs of saturation”: long-term dynamics of vascular epiphyte communities in a human-modified landscape

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Available only for authorised users

Almeida-Neto M, Ulrich W (2011) A straightforward computational approach for measuring nestedness using quantitative matrices. Environ Model Softw 26:173–178CrossRef

Almeida-Neto M, Guimaraes P, Guimaraes PR Jr, Loyola RD, Ulrich W (2008) A consistent metric for nestedness analysis in ecological systems: reconciling concept and measurement. Oikos 117:1227–1239CrossRef

Andrén H (1994) Can one use nested subset pattern to reject the random sample hypothesis? Examples from boreal bird communities. Oikos 70:489–491CrossRef

Braoudakis GV, Jackson DA (2016) Effect of lake size, isolation and top predator presence on nested fish community structure. J Biogeogr 43:1425–1435CrossRef

Calmé S, Desrochers A (1999) Nested bird and micro-habitat assemblages in a Peatland Archipelago. Oecologia 118:361–370CrossRefPubMed

Cam E, Nichols JD, Hines JE, Sauer JR (2000) Inferences about nested subsets structure when not all species are detected. Oikos 91:428–434CrossRef

Coleman BD (1981) On random placement and species-area relationships. Math Biosci 54:191–215CrossRef

Coleman BD, Mares M, Willig MR, Hsieh Y-H (1982) Randomness, area, and species richness. Ecology 63:1121–1133CrossRef

Colwell RK (2013) EstimateS: statistical estimation of species richness and shared species from samples. Version 9.2. User’s guide and application. http://purl.oclc.org/estimates

Cook RR, Quinn JF (1995) The influence of colonization in nested species subsets. Oecologia 102:413–424CrossRefPubMed

Cutler AH (1994) Nested biotas and biological conservation: metrics, mechanisms, and meaning of nestedness. Landsc Urban Plan 28:73–82CrossRef

Darlington PJ (1957) Zoogeography: the geographical distribution of animals. Wiley, New York

Davidar P, Yogananad K, Ganesh T, Devy S (2002) Distributions of forest birds and butterflies in the Andaman Islands, Bay of Bengal: nested patterns and processes. Ecography 25:5–16CrossRef

Dennis RLH, Hardy PB, Dapporto L (2012) Nestedness in island faunas: novel insights into island biogeography through butterfly community profiles of colonization ability and migration capacity. J Biogeogr 39:1412–1426CrossRef

Diver KC (2008) Not as the crow flies: assessing effective isolation for island biogeographical analysis. J Biogeogr 35:1040–1048CrossRef

Dover J, Settele J (2009) The influences of landscape structure on butterfly distribution and movement: a review. J Insect Conserv 13:3–27CrossRef

Driscoll DA (2008) The frequency of metapopulations, metacommunities and nestedness in a fragmented landscape. Oikos 117:297–309CrossRef

Ehrlich PR (1992) Population biology of checkerspot butterflies and the preservation of global biodiversity. Oikos 63:6–12CrossRef

Fleishman E, Betrus CJ, Blair RB, Nally RM, Murphy DD (2002) Nestedness analysis and conservation planning: the importance of place, environment, and life history across taxonomic groups. Oecologia 133:78–89CrossRefPubMed

Frick WF, Hayes JP, Heady PA III (2009) Nestedness of desert bat assemblages: species composition patterns in insular and terrestrial landscapes. Oecologia 158:687–697CrossRefPubMed

Ganzhorn JU, Eisenbeiß B (2001) The concept of nested species assemblages and its utility for understanding effects of habitat fragmentation. Basic Appl Ecol 2:87–99CrossRef

Gao H, Wang G, Yu Q (2015) Distribution characteristics and species diversity of seed plants in Zhoushan, Zhejiang. Plant Sci J 33:61–71

Higgins CL, Willig MR, Strauss RE (2006) The role of stochastic processes in producing nested patterns of species distribution. Oikos 114:159–167CrossRef

Hill JK, Thomas CD, Blakeley DS (1999) Evolution of flight morphology in a butterfly that has recently expanded its geographic range. Oecologia 121:165–170CrossRefPubMed

Hill JK, Gray MA, Khen CV, Benedick S, Tawatao N, Hamer KC (2011) Ecological impacts of tropical forest fragmentation: how consistent are patterns in species richness and nestedness? Philos Trans R Soc B 366:3265–3276CrossRef

Honnay O, Hermy M, Coppin P (1999) Nested plant communities in deciduous forest fragments: species relaxation or nested habitats? Oikos 84:119–129CrossRef

Li Y, Li D (1994) The effects of human activities on large and middle mammals on Zhoushan Islands: analysis of threatened status of large and middle mammals. Chin Biodivers 2:140–145CrossRef

Li Y, Niemela J, Li D (1998) Nested distribution of amphibians in the Zhoushan Archipelago, China: can selective extinction cause nested subsets of species? Oecologia 113:557–564CrossRef

Li Y, Wu Z, Duncan RP (2006) Why islands are easier to invade: human influences on Bullfrog invasion in the Zhoushan archipelago and neighboring mainland, China. Oecologia 148:129–136CrossRef

Lindenmayer DB, Fisher J (2006) Habitat fragmentation and landscape change. Island Press, Washington

Lizée MH, Tatoni T, Deschamps-Cottin M (2016) Nested patterns in urban butterfly species assemblages: respective roles of plot management, park layout and landscape features. Urban Ecosyst 19:205–224CrossRef

Lomolino MV (1990) The target area hypothesis: the influence of island area on immigration rates of nonvolant mammals. Oikos 57:297–300CrossRef

Lomolino MV (1996) Investigating causality of nestedness of insular communities: selective immigrations or extinctions? J Biogeogr 23:699–703CrossRef

Lynam AJ, Billick I (1999) Differential responses of small mammals to fragmentation in a Thailand tropical forest. Biol Conserv 91:191–200CrossRef

MacKenzie DI, Nichols JD, Royle JA, Pollock KH, Bailey LL, Hines JE (2006) Occupancy estimation and modeling: inferring patterns and dynamics of species occurrence. Elsevier, San Francisco

Matthews TJ, Cottee-Jones HEW, Whittaker RJ (2015) Quantifying and interpreting nestedness in habitat islands: a synthetic analysis of multiple datasets. Divers Distrib 21:392–404CrossRef

Moilanen A, Nieminen M (2002) Simple connectivity measures in spatial ecology. Ecology 83(4):1131–1145CrossRef

Morrison LW (2013) Nestedness in insular floras: spatiotemporal variation and underlying mechanisms. J Plant Ecol 6(6):480–488CrossRef

Öckinger E, Smith HG (2006) Landscape composition and habitat area affects butterfly species richness in semi-natural grasslands. Oecologia 149:526–534CrossRefPubMed

Patterson BD (1987) The principle of nested subsets and its implications for biological conservation. Conserv Biol 1:323–334CrossRef

Patterson BD, Atmar W (1986) Nested subsets and the structure of insular mammalian faunas and archipelagos. Biol J Linn Soc 28:65–82CrossRef

Patterson BD, Atmar W (2000) Analyzing species composition in fragments. In: Rheinwald G (ed) Isolated vertebrate communities in the tropics. Bonn Zoological Monographs 46. Alexander Koening Zoological Research Institute and Zoological Museum, Bonn, pp 9–24

Pellet J (2008) Seasonal variation in detectability of butterflies surveyed with Pollard walks. J Insect Conserv 12:155–162CrossRef

Pullin AS (1995) Ecology and conservation of butterflies. Chapman and Hall, LondonCrossRef

Purvis A, Gittleman JL, Cowlishaw G, Mace GM (2000) Predicting extinction risk in declining species. Proc R Soc B 67:1947–1952CrossRef

Rodríguez D, Ojeda RA (2013) Scaling coexistence and assemblage patterns of desert small mammals. Mamm Biol 78:313–321CrossRef

Russell GJ, Diamond DM, Reed TM, Pimm SL (2006) Breeding birds on small islands: Island biogeography or optimal foraging? J Anim Ecol 75:324–339CrossRefPubMed

Schoereder JH, Galbiati C, Ribas CR, Sobrinho TG, Sperber CF, Lopes-Andrade O, DeSouza C (2004) Should we use proportional sampling for species-area studies? J Biogeogr 31:1219–1226CrossRef

Schouten MA, Verweij PA, Barendregt A, Kleukers RJM, de Ruiter PC (2007) Nested assemblages of Orthoptera species in the Netherlands: the importance of habitat features and life-history traits. J Biogeogr 34:1938–1946CrossRef

Sekar S (2012) A meta-analysis of the traits affecting dispersal ability in butterflies: can wingspan be used as a proxy? J Anim Ecol 81:174–184CrossRefPubMed

Si X, Pimm SL, Russell GJ, Ding P (2014) Turnover of breeding bird communities on islands in an inundated lake. J Biogeogr 41:2283–2292CrossRef

Simaiakis SM, Martínez-Morales MA (2010) Nestedness in centipede (Chilopoda) assemblages on continental islands (Aegean, Greece). Acta Oecol 36:282–290CrossRef

Soga M, Koike S (2012) Life-history traits affect vulnerability of butterflies to habitat fragmentation in urban remnant forests. Ecoscience 19:11–20CrossRef

Soga M, Koike S (2013) Patch isolation only matters for specialist butterflies but patch area affects both specialist and generalist species. J For Res 18:270–278CrossRef

Strona G, Fattorini S (2014) On the methods to assess significance in nestedness analyses. Theory Biosci 133:179–186CrossRefPubMed

Uezu A, Beyer DD, Metzger JP (2008) Can agroforest woodlots work as stepping stones for birds in the Atlantic forest region? Biodivers Conserv 17:1907–1922CrossRef

Ulrich W, Gotelli NJ (2007) Null model analysis of species nestedness patterns. Ecology 88:1824–1831CrossRefPubMed

Ulrich W, Almeida-Neto M, Gotelli NJ (2009) A consumer’s guide to nestedness analysis. Oikos 118:3–17CrossRef

Wang Y, Wang Y, Lu P, Zhang F, Li Y (2008) Diet composition of post-metamorphic bullfrogs (Rana catesbeiana) in the Zhoushan archipelago, Zhejiang Province, China. Front Biol China 3(2):219–226CrossRef

Wang Y, Li Y, Wu Z, Murray BR (2009) Insular shifts and trade-offs in life-history traits in pond frogs in the Zhoushan Archipelago, China. J Zool 278:65–73CrossRef

Wang Y, Bao Y, Yu M, Xu G, Ding P (2010) Nestedness for different reasons: the distributions of birds, lizards and small mammals on islands of an inundated lake. Divers Distrib 16:862–873CrossRef

Wang Y, Chen S, Ding P (2011) Testing multiple assembly rule models in avian communities on islands of an inundated lake, Zhejiang Province, China. J Biogeogr 38:1330–1344CrossRef

Wang Y, Wang X, Ding P (2012) Nestedness of snake assemblages on islands of an inundated lake. Curr Zool 58:828–836CrossRef

Wang Y, Ding P, Chen S, Zheng G (2013) Nestedness of bird assemblages on urban woodlots: implications for conservation. Landsc Urban Plan 111:59–67CrossRef

Wang S, Zhu W, Gao X, Li X, Yan S, Liu X, Yang J, Gao Z, Li Y (2014) Population size and time since island isolation determine genetic diversity loss in insular frog populations. Mol Ecol 23:637–648

Wang Y, Thornton DH, Ge D, Wang S, Ding P (2015) Ecological correlates of vulnerability to fragmentation in forest birds on inundated subtropical land-bridge islands. Biol Conserv 191:251–257CrossRef

Watling JI, Donnelly MA (2006) Fragments as islands: a synthesis of faunal responses to habitat patchiness. Conserv Biol 20:1016–1025CrossRefPubMed

Whittaker RJ, Fernández-Palacios JM (2007) Island biogeography: ecology, evolution, and conservation, 2nd edn. Oxford University Press, Oxford

Worthen WB, Jones MT, Jetton RM (1998) Community structure and environmental stress: desiccation promotes nestedness in mycophagous fly communities. Oikos 81:45–54CrossRef

Wright DH, Patterson BD, Millelson GM, Culter A, Atmar W (1998) A comparative analysis of nested subset patterns of species composition. Oecologia 113:1–20CrossRef

Zhou Y (2000) Monograph of Chinese butterfly. Henan Scientific and Technological Publishing House, Zhengzhou

Zhou H, Guo S, Feng Z (1998) Monographia of Zhejiang islands. China Higher Education Press, Beijing

Zhoushan Planning Bureau (2014) Map World Zhoushan. http://www.zsch.gov.cn/main.aspx

Zhuge Y, Jiang SR, Zheng ZW, Fang GW (1986) Preliminary studies on geographical ecology of birds and mammals on some islands of Zhejiang Province. Acta Zool Sin 32:74–85

Title: Nestedness of butterfly assemblages in the Zhoushan Archipelago, China: area effects, life-history traits and conservation implications
Authors: Aichun Xu
Xufang Han
Xuemei Zhang
Virginie Millien
Yanping Wang
Publication date: 30-01-2017
Publisher: Springer Netherlands
Published in: Biodiversity and Conservation / Issue 6/2017
Print ISSN: 0960-3115
Electronic ISSN: 1572-9710
DOI: https://doi.org/10.1007/s10531-017-1305-0

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 6/2017

Amphibian decline, pond loss and reduced population connectivity under agricultural intensification over a 38 year period

Temporal and spatial trends in the abundances of an apex predator, introduced mesopredator and ground-nesting bird are consistent with the mesopredator release hypothesis

Declining Google Trends of public interest in biodiversity: semantics, statistics or traceability of changing priorities?

Effects of dung-pad conditions and density on coprophagous beetle assemblages in a Mediterranean rangeland

Conservation implications of significant population differentiation in an endangered estuarine seahorse

Phytosociology as a tool for forest restoration: a study case in the extreme South of Atlantic Forest Biome