[en] Among semi-natural elements in agricultural landscapes, wildflower strips sown at field margins or within fields represent potential habitats for the natural enemies of insect pests. As insects are sensitive to a variety of flower traits, we hypothesised that mixtures with high functional diversity attract and support a higher abundance and species richness of aphid flower visiting predators compared to mixtures with low functional diversity. During a field experiment, repeated over two years (2014 and 2015) in Gembloux (Belgium), aphid predators (i.e., lacewings, ladybeetles and hoverflies) were pan-trapped in five sown flower mixtures (including a control mixture, with three replicates of each mixture) of low to high functional diversity based on seven traits (i.e., flower colour, ultra-violet reflectance and pattern, blooming start and duration, height and flower class, primarily based on corolla morphology). In both years, flower species in the sown mixtures (i.e., sown and spontaneous flowers) were listed, and the realised functional diversity of each plot was calculated. Over the two years, an increase in functional diversity did not result in an increase in the abundance and richness of aphid predators. Moreover, ladybeetles, representing the majority of trapped predators, were more abundant in mixtures with very low or intermediary functional diversity at sowing, especially in 2014. We hypothesise that certain flower species, which were abundant in certain mixtures (and not in those exhibiting the highest functional diversity), attracted predators and were sufficiently represented to support them. Our results present novel information that could be used to the development of flower mixtures that provide effective ecosystem services, such as pest control.
Research Center/Unit :
TERRA Teaching and Research Centre - TERRA
Disciplines :
Environmental sciences & ecology Entomology & pest control Agriculture & agronomy
Author, co-author :
Hatt, Séverin ; Université de Liège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Entomologie fonctionnelle et évolutive
Uyttenbroeck, Roel ; Université de Liège > Ingénierie des biosystèmes (Biose) > Biodiversité et Paysage
Mouchon, Pierre; Ecole Supérieure d'Agriculture Lille
Chen, Julian; Chinese Academy of Agricultural Science > Institute of Plant Protection
Piqueray, Julien; ASBL Natagriwal
Monty, Arnaud ; Université de Liège > Ingénierie des biosystèmes (Biose) > Biodiversité et Paysage
Francis, Frédéric ; Université de Liège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Entomologie fonctionnelle et évolutive
Language :
English
Title :
Do flower mixtures with high functional diversity enhance aphid predators in wildflower strips?
Alternative titles :
[fr] Des mélanges fleuries présantant une diversité fonctionnelle élevée favorisent-ils les prédateurs des pucerons dans les bandes fleuries?
Publication date :
2017
Journal title :
European Journal of Entomology
ISSN :
1210-5759
eISSN :
1802-8829
Publisher :
Czech Academy of Sciences. Institute of Entomology, České Budějovice, Czechia
Volume :
114
Pages :
66-76
Peer reviewed :
Peer Reviewed verified by ORBi
Funders :
TERRA AgricultureIsLife (University of Liège) Chinese Opening Fund of State Key Laboratory for Biology of Plant Diseases and Insect Pests (SKLOF201601)
Adedipe F. & Park Y.-L. 2010: Visual and olfactory preference of Harmonia axyridis (Coleoptera: Coccinellidae) adults to various companion plants. - J. Asia-Pac. Entomol. 13: 316-323.
Almohamad R., Verheggen F. & Haubruge é. 2009: Searching and oviposition behavior of aphidophagous hoverfl ies (Diptera: Syrphidae): a review. - Biotechnol. Agron. Soc. Environ. 13: 467-481.
Baldi I., Cordier S., Coumoul X., Elbaz A., Gamet-Payrastre L., Le Bailly P., Multigner L., Rahmani R., Spinosi J. & Van Maele-Fabry G. 2013: Pesticides: Effets sur la Santé. Institut national de la santé et de la recherche médicale, Paris, 1002 pp.
Balzan M.V., Bocci G. & Moonen A.-C. 2014: Augmenting fl ower trait diversity in wildfl ower strips to optimise the conservation of arthropod functional groups for multiple agroecosystem services. - J. Insect Conserv. 18: 713-728.
Balzan M.V., Bocci G. & Moonen A.-C. 2016: Utilisation of plant functional diversity in wildfl ower strips for the delivery of multiple agroecosystem services. - Entomol. Exp. Appl. 158: 304-319.
Barbosa P.A. 1998: Conservation Biological Control. Academic Press, San Diego, 420 pp.
Batáry P., Dicks L.V., Kleijn D. & Sunderland W.J. 2015: The role of agri-environment schemes in conservation and environmental management. - Conserv. Biol. 29: 1006-1016.
Bates D., Maechler M., Bolker B. & Walker S. 2014: lme4: Linear mixed-effects models using Eigen and S4. R package. URL: http://CRAN.R-project.org/package=lme4
Berkvens N., Bonte J., Berkvens D., Deforce K., Tirry L. & De Clercq P. 2008: Pollen as an alternative food for Harmonia axyridis. - BioControl 53: 201-210.
Botta-Dukát Z. 2005: Rao's quadratic entropy as a measure of functional diversity based on multiple traits. - J. Veg. Sci. 16: 533-540.
Brodie B.S., Smith M.A., Lawrence J. & Gries G. 2015: Effects of fl oral scent, color and pollen on foraging decisions and oocyte development of common green bottle fl ies. - PLoS ONE 10(12): e0145055, 15 pp.
Campbell A.J., Biesmeijer J.C., Varma V. & Wäckers F.L. 2012: Realising multiple ecosystem services based on the response of three benefi cial insect groups to fl oral traits and trait diversity. - Basic Appl. Ecol. 13: 363-370.
Campbell D.R., Bischoff M., Lord J.M. & Robertson A.W. 2010: Flower color infl uences insect visitation in alpine New Zealand. - Ecology 91: 2638-2649.
Carrié R.J.G., George D.R. & Wäckers F.L. 2012: Selection of fl oral resources to optimise conservation of agriculturallyfunctional insect groups. - J. Insect Conserv. 16: 635-640.
Chittka L., Shmida A., Troje N. & Menzel R. 1994: Ultraviolet as a component of fl ower refl ections, and the colour perception of Hymenoptera. - Vision Res. 34: 1489-1508.
Colley M.R. & Luna J.M. 2000: Relative attractiveness of potential benefi cial insectary plants to aphidophagous hoverfl ies (Diptera: Syrphidae). - Environ. Entomol. 29: 1054-1059.
Devine G.J. & Furlong M.J. 2007: Insecticide use: Contexts and ecological consequences. - Agric. Hum. Values 24: 281-306.
Díaz S. & Cabido M. 2001: Vive la différence: plant functional diversity matters to ecosystem processes. - Trends Ecol. Evol. 16: 646-655.
Döring T.F. 2014: How aphids fi nd their host plants, and how they don't. - Ann. Appl. Biol. 165: 3-26.
Dray S. & Dufour A.B. 2007: The ade4 package: implementing the duality diagram for ecologists. - J. Stat. Softw. 22(4): 1-20.
Ekroos J., Olsson O., Rundlöf M., Wätzold F. & Smith H.G. 2014: Optimizing agri-environment schemes for biodiversity, ecosystem services or both? - Biol. Conserv. 172: 65-71.
European Commission 2005: Agri-environment Measures. Overview on General Principles, Types of Measures and Application. European Commission, Directorate General for Agriculture and Rural Development, Brussels, 24 pp.
Evans E.W. 2003: Searching and reproductive behaviour of female aphidophagous ladybirds (Coleoptera: Coccinellidae): a review. - Eur. J. Entomol. 100: 1-10.
Fassotte B. 2016: Sexual Attraction in Lady Beetles: Fundamentals and Applications. PhD Thesis, University of Liège-Gembloux Agro-Bio Tech, Gembloux, 160 pp.
Fiedler A.K. & Landis D.A. 2007a: Attractiveness of Michigan native plants to arthropod natural enemies and herbivores. - Environ. Entomol. 36: 751-765.
Fiedler A.K. & Landis D.A. 2007b: Plant characteristics associated with natural enemy abundance at Michigan native plants. - Environ. Entomol. 36: 878-886.
Fontaine C., Dajoz I., Meriguet J. & Loreau M. 2006: Functional diversity of plant-pollinator interaction webs enhances the persistence of plant communities. - PLoS Biol. 4: 129-135.
Foster S.P., Devine G.J. & Devonshire A.L. 2007: Insecticide resistance. In Van Emden H.F. & Harrington R. (eds): Aphids Crop Pests. CABI, Cambridge, MA, pp. 261-286.
Frank T. 1998: The role of different slug species in damage to oilseed rape bordering on sown wildfl ower strips. - Ann. Appl. Biol. 133: 483-493.
Hatt S., Uyttenbroeck R., Lopes T., Paul A., Danthine S., Bodson B., Piqueray J., Monty A. & Francis F. 2015: Do wildfl ower strips favor insect pest populations at fi eld margins? - Agric. Agric. Sci. Procedia 6: 30-37.
Hatt S., Lopes T., Boeraeve F., Chen J. & Francis F. 2017: Pest regulation and support of natural enemies in agriculture: experimental evidence of within fi eld wildfl ower strips. - Ecol. Eng. 98: 240-245.
Hodge I., Hauck J. & Bonn A. 2015: The alignment of agricultural and nature conservation policies in the European Union. - Conserv. Biol. 29: 996-1005.
Holland J.M., Bianchi F.J.J.A., Entling M.H., Moonen A.C., Smith B.M. & Jeanneret P. 2016: Structure, function and management of semi-natural habitats for conservation biological control: a review of European studies. - Pest Manag. Sci. 72: 1638-1651.
Kattge J., Díaz S., Lavorel S., Prentice I.C., Leadley P., Bönisch G., Garnier E., Westoby M., Reich P.B., Wright I.J. et al. 2011: TRY-a global database of plant traits. - Glob. Change Biol. 17: 2905-2935.
Koski M.H. & Ashman T.-L. 2014: Dissecting pollinator responses to a ubiquitous ultraviolet floral pattern in the wild. - Funct. Ecol. 28: 868-877.
Lambinon J., Delvosalle L. & Duvigneaud J. 2004: Nouvelle Flore de Belgique, du Grand-Duché de Luxembourg, du Nord de la France et des Régions Voisines. 5th ed. Jardin Botanique National de Belgique, Meise, 1167 pp.
Lambinon J., De Langhe J.-E., Delvosalle L. & Duvigneaud J. 2008: Flora van België, het Groothertogdom Luxemburg, Noord-Frankrijk en de Aangrenzende Gebieden. Nationale Plantentuin van België, Meise, 1091 pp.
Landis D.A., Wratten S.D. & Gurr G.M. 2000: Habitat management to conserve natural enemies of arthropod pests in agriculture. - Annu. Rev. Entomol. 45: 175-201.
Laubertie E.A., Wratten S.D. & Sedcole J.R. 2006: The role of odour and visual cues in the pan-trap catching of hoverfl ies (Diptera: Syrphidae). - Ann. Appl. Biol. 148: 173-178.
Laubertie E.A., Wratten S.D. & Hemptinne J.-L. 2012: The contribution of potential benefi cial insectary plant species to adult hoverfl y (Diptera: Syrphidae) fi tness. - Biol. Contr. 61: 1-6.
Letourneau D.K., Armbrecht I., Rivera B.S., Lerma J.M., Carmona E.J., Daza M.C., Escobar S., Galindo V., Gutiérrez C., López S.D. et al. 2011: Does plant diversity benefi t agroecosystems? A synthetic review. - Ecol. Appl. 21: 9-21.
Lopes T., Hatt S., Xu Q., Chen J., Liu Y. & Francis F. 2016: Wheat (Triticum aestivum L.)-based intercropping systems for biological pest control: a review. - Pest Manag. Sci. 72: 2193-2202.
Lu Z.-X., Zhu P.-Y., Gurr G.M., Zheng X.-S., Read D.M.Y., Heong K.-L., Yang Y.-J. & Xu H.-X. 2014: Mechanisms for fl owering plants to benefi t arthropod natural enemies of insect pests: Prospects for enhanced use in agriculture. - Insect Sci. 21: 1-12.
Lundgren J.G. 2009: Nutritional aspects of non-prey foods in the life histories of predaceous Coccinellidae. - Biol. Contr. 51: 294-305.
Mckenzie A.J., Emery S.B., Franks J.R. & Whittingham M.J. 2013: Landscape-scale conservation: collaborative agri-environment schemes could benefi t both biodiversity and ecosystem services, but will farmers be willing to participate? - J. Appl. Ecol. 50: 1274-1280.
Miller N., Al Dobai S., Legaspi J. & Sivinski J. 2013: Estimating attraction of Syrphidae (Diptera) to fl owering plants with interception traps. - Biocontr. Sci. Technol. 23: 1040-1052.
Mondor E.B. & Warren J.L. 2000: Unconditioned and conditioned responses to colour in the predatory coccinellid, Harmonia axyridis (Coleoptera: Coccinellidae). - Eur. J. Entomol. 97: 463-467.
Müller H. 1881: Alpenblumen, ihre Befruchtung durch Insekten und ihre Anpassungen an dieselben. Wilhelm Engelmann, Leipzig, 612 pp.
Pywell R.F., Bullock J.M., Hopkins A., Walker K.J., Sparks T.H., Burke M.J.W. & Peel S. 2002: Restoration of speciesrich grassland on arable land: assessing the limiting processes using a multi-site experiment. - J. Appl. Ecol. 39: 294-309.
R Core Team 2013: R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna.
Rand T.A., Tylianakis J.M. & Tscharntke T. 2006: Spillover edge effects: the dispersal of agriculturally subsidized insect natural enemies into adjacent natural habitats. - Ecol. Lett. 9: 603-614.
Ricci C., Ponti L. & Pires A. 2005: Migratory fl ight and prediapause feeding of Coccinella septempunctata (Coleoptera) adults in agricultural and mountain ecosystems of Central Italy. - Eur. J. Entomol. 102: 531-538.
Root R.B. 1973: Organization of a plant-arthropod association in simple and diverse habitats: the fauna of collards (Brassica oleracea). - Ecol. Monogr. 43: 95-124.
Roy H.E., Brown P.M.J., Comont R.F., Poland R.L. & Sloggett J.J. 2013: Ladybirds. Pelagic Publishing, Exeter, 142 pp.
Salveter R. 1998: The infl uence of sown herb strips and spontaneous weeds on the larval stages of aphidophagous hoverfl ies (Dipt., Syrphidae). - J. Appl. Entomol. 122: 103-114.
San Martin G. 2004: Clé de Détermination des Chrysopidae de Belgique. Jeune et Nature asbl, Wavre, 43 pp.
Schaller M. & Nentwig W. 2000: Olfactory orientation of the seven-spot ladybird beetle, Coccinella septempuctata (Coleoptera: Coccinellidae): Attraction of adults to plants and conspecifi c females. - Eur. J. Entomol. 97: 155-159.
Service Public De Wallonie 2014: Cartes des Sols de Wallonie. URL: http://geoapps.wallonie.be/CigaleInter/#CTX=CNSW# BBOX=172556.38064514095,175228.67765640165,139464 .25249213536,140017.23276476256 (last accessed 28 Nov. 2016).
Sutherland J.P., Sullivan M.S. & Poppy G.M. 1999: The infl uence of fl oral character on the foraging behaviour of the hoverfl y, Episyrphus balteatus. - Entomol. Exp. Appl. 93: 157-164.
Tooker J.F., Hauser M. & Hanks L.M. 2006: Floral host plants of Syrphidae and Tachinidae (Diptera) of central Illinois. - Ann. Entomol. Soc. Am. 99: 96-112.
Tscharntke T., Karp D.S., Chaplin-Kramer R., Batáry P., Declerck F., Gratton C., Hunt L., Ives A.R., Jonsson M., Larsen A. et al. 2016: When natural habitat fails to enhance biological pest control-Five hypotheses. - Biol. Conserv. 204: 449-458.
Tschumi M., Albrecht M., Entling M.H. & Jacot K. 2014: Targeted fl ower strips effectively promote natural enemies of aphids. - IOBCwprs Bull. 100: 131-135.
Tschumi M., Albrecht M., Entling M.H. & Jacot K. 2015: High effectiveness of tailored fl ower strips in reducing pests and crop plant damage. - Proc. R. Soc. (B) 282: 20151369, 8 pp.
Tschumi M., Albrecht M., Collatz J., Dubsky V., Entling M.H., Najar-Rodriguez A.J. & Jacot K. 2016: Tailored fl ower strips promote natural enemy biodiversity and pest control in potato crops. - J. Appl. Ecol. 53: 1169-1176.
Turnbull L.A., Rees M. & Crawley M.J. 1999: Seed mass and the competition/colonization trade-off: a sowing experiment. - J. Ecol. 87: 899-912.
Uyttenbroeck R., Hatt S., Paul A., Boeraeve F., Piqueray J., Francis F., Danthine S., Fréderich M., Dufrêne M., Bodson B. et al. 2016: Pros and cons of fl owers strips for farmers: a review. - Biotechnol. Agron. Soc. Environ. 20: 225-235.
Van Rijn P.C.J. & Wäckers F.L. 2010: The suitability of fi eld margin fl owers as food source for zoophagous hoverfl ies. - IOBCwprs Bull. 56: 125-128.
Van Rijn P.C.J. & Wäckers F.L. 2016: Nectar accessibility determines fi tness, fl ower choice and abundance of hoverfl ies that provide natural pest control. - J. Appl. Ecol. 53: 925-933.
Van Rijn P.C.J., Kooijman J. & Wäckers F.L. 2013: The contribution of fl oral resources and honeydew to the performance of predatory hoverfl ies (Diptera: Syrphidae). - Biol. Contr. 67: 32-38.
Van Veen M.P. 2010: Hoverfl ies of Northwest Europe: Identifi cation Keys to the Syrphidae. KNNV, Zeist, 248 pp.
Vandereycken A., Durieux D., Joie E., Sloggett J.J., Haubruge é. & Verheggen F.J. 2013: Is the multicolored Asian ladybeetle, Harmonia axyridis, the most abundant natural enemy to aphids in agroecosystems? - J. Insect Sci. 13(158): 14 pp.
Vattala H.D., Wratten S.D., Vattala C.B., Phillips F.L. & Wäckers F.L. 2006: The infl uence of fl ower morphology and nectar quality on the longevity of a parasitoid biological control agent. - Biol. Contr. 39: 179-185.
Venables W.N. & Ripley B.D. 2002: Modern Applied Statistics with S. 4th ed. Springer, New York, xi + 495 pp.
Ver Hoef J.M. & Boveng P.L. 2007: Quasi-poisson vs. negative binomial regression: how should we model overdispersed count data? - Ecology 88: 2766-2772.
Villenave J., Deutsch B., Lodé T. & Rat-Morris E. 2006: Pollen preference of the Chrysoperla species (Neuroptera: Chrysopidae) occurring in the crop environment in western France. - Eur. J. Entomol. 103: 771-777.
Violle C., Navas M.-L., Vile D., Kazakou E., Fortunel C., Hummel I. & Garnier E. 2007: Let the concept of trait be functional! - Oikos 116: 882-892.
Wäckers F. 2004: Assessing the suitability of fl owering herbs as parasitoid food sources: fl ower attractiveness and nectar accessibility. - Biol. Control 29: 307-314.
Wäckers F.L. & Van Rijn P.C.J. 2012: Pick and mix: selecting fl owering plants to meet the requirements of target biological control insects. In Gurr G.M., Wratten S.D., Snyder W.E., & Read D.M.Y. (eds): Biodiversity and Insect Pests: Key Issues for Sustainable Management. John Wiley & Sons, Chichester, pp. 139-165.
Wratten S.D., Bowie M.H., Hickman J.M., Evans A.M., Sedcole J.R. & Tylianakis J.M. 2003: Field boundaries as barriers to movement of hover fl ies (Diptera: Syrphidae) in cultivated land. - Oecologia 134: 605-611.
Zhang W., Ricketts T.H., Kremen C., Carney K. & Swinton S.M. 2007: Ecosystem services and dis-services to agriculture. - Ecol. Econ. 64: 253-260.
