Abstract
Many arthropods modify parts of plants through the construction of domiciles or by consuming plant tissues that, after abandoned, can be used as shelter by other arthropods in a facilitating interaction process. We examined, for the first time, the potential of leaf-rolling mites to indirectly influence arthropod communities in natural forests by providing shelter sites. In early June 2019, we found a high density of leaves of Amphitecna tuxtlensis (Bignoniaceae) rolled by an undetermined leaf-rolling mite species in a tropical rainforest, in Mexico. We tested whether the species richness, abundance, and colonization frequency of arthropods was greater in rolled compared with expanded leaves. We collected 5 rolled leaves and 5 fully expanded leaves from 15 A. tuxtlensis trees (N = 150 sampled leaves) and recorded all arthropods on each leaf. We recorded 1421 arthropods from 67 unique morphospecies. We found 39 individuals from 23 morphospecies of arthropods in expanded leaves, and 1382 individuals from 56 morphospecies in rolled leaves. Ants were the most abundant and frequent group and utilized the rolled leaves mainly as nesting sites; 1260 ant individuals were found in 30 nests from three species. Arthropod species richness, abundance, and colonization frequency were greater in rolled leaves compared with expanded leaves. We concluded that the ecosystem engineering effect of leaf-rolling mites may be an important structuring element for arthropod communities on plants through an increase of high quality food resources and shelter sites for other arthropods, as well as nesting sites for ants.
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References
Almeida MFBD, Santos LRD, Carneiro MAA (2014) Senescent stem-galls in trees of Eremanthus erythropappus as aresource for arboreal ants. Rev Bras Entomol 58:265–272. https://doi.org/10.1590/S0085-56262014000300007
Bates D, Maechler M, Bolker B, Walker S (2015) lme4: linear mixed-effects models using Eigen and S4. R Package Version 1: 1–23.
Blüthgen N, Feldhaar H (2010) Food and shelter: how resources influence ant ecology. In: Lach L, Parr CL, Abbott KL (eds) Ant ecology. Oxford University Press, New York, pp 115–136
Cornelissen T, Cintra F, Santos JC (2016) Shelter-building insects and their role as ecosystem engineers. Neotrop Entomol 45:1–12. https://doi.org/10.1007/s13744-015-0348-8
Danks HV (2002) Modification of adverse conditions by insects. Oikos 99:10–24. https://doi.org/10.1034/j.1600-0706.2002.990102.x
Fernandes GW, Boecklen WJ, Martins RP, Castro AG (1988) Ants associated with a coleopterous leaf-bud gall on Xylopia aromatica (Annonaceae). Proc Entomol Soc Wash 91:81–87
Fournier V, Rosenheim JA, Brodeur J, Laney LO, Johnson MW (2003) Herbivorous mites as ecological engineers: indirect effects on arthropods inhabiting papaya foliage. Oecologia 135:442–450. https://doi.org/10.1007/s00442-003-1212-9
Fukui A (2001) Indirect interactions mediated by leaf shelters in animal–plant communities. Popul Ecol 43:31–40. https://doi.org/10.1007/PL00012013
Gutiérrez-García G, Ricker M (2011) Climate and climate change in the region of Los Tuxtlas (Veracruz, Mexico): a statistical analysis. Atmosfera 24:347–373
Henriques NR, Cintra F, Pereira CC, Cornelissen T (2019) Indirect effects of ecosystem engineering by insects in a tropical liana. Arthropod Plant Interact 13:499–504. https://doi.org/10.1007/s11829-018-9661-6
Ibarra-Manríquez G, González-García L (1997) Amphitecna tuxtlensis. In: González-Soriano E, Dirzo R, Vogt RC (eds) Historia Natural de Los Tuxtlas. Universidad Nacional Autónoma de México, México
Jones CG, Lawton JH, Shachak M (1994) Organisms as ecosystem engineers. In: Samson FB, Knopf FL (eds) Ecosystem management. Springer, New York, pp 130–114
Keifer HH, Baker WE, Kono T, Delfinado M, Styer WE (1982) An illustrated guide to plant abnormalities caused by Eriophyid mites in North America (No. 573). Washington, United States Department of Agriculture.
Kielkiewicz M, Soika G, Olszewska-Kaczynska I (2011) A comparative evaluation of the consequences of Phytoptus tetratrichus Nalepa (Acari: Eriophyoidea) feeding on the content and tissue distribution of polyphenolic compounds in leaves of different linden taxa. Acarologia 51:237–250
Lill JT, Marquis RJ (2003) Ecosystem engineering by caterpillars increases insect herbivore diversity on white oak. Ecology 84:682–690. https://doi.org/10.1890/0012-9658(2003)084[0682:EEBCII]2.0.CO;2
Lill JT, Marquis RJ (2007) Microhabitat manipulation: ecosystem engineering by shelter-building insects. In: Cuddington KMD, Byers JE, Hastings A, Wilson WG (eds) Ecosystem engineers: concepts, theory, and applications in ecology. Elsevier Press, San Diego, pp 107–138
Marquis R, Lill J (2007) Effects of arthropods as physical ecosystem engineers on plant-based trophic interaction webs. In: Ohgushi T, Craig T, Price P (eds) Ecological Communities: Plant Mediation in Indirect Interaction Webs. Cambridge University Press, Cambridge, pp 246–274. https://doi.org/10.1017/CBO9780511542701.012
Martin NA (2017) Mahoe leaf roll mite -Aceria melicyti. Interesting Insects and other Invertebrates. New Zealand Arthropod Factsheet Series Number 69. http://nzacfactsheets.landcareresearch.co.nz/Index.html. ISSN 1179-643X.
Novais S, DaRocha WD, Calderón-Cortés N, Quesada M (2017) Wood-boring beetles promote ant nest cavities: extended effects of a twig-girdler ecosystem engineer. Basic Appl Ecol 24:53–59. https://doi.org/10.1016/j.baae.2017.09.001
Novais S, Calderón-Cortés N, Sánchez-Montoya G, Quesada M (2018) Arthropod facilitation by wood-boring beetles: spatio-temporal distribution mediated by a twig-girdler ecosystem engineer. J Insect Sci 18:1–7. https://doi.org/10.1093/jisesa/iey097
Novais S, Hernandez-Ortiz V, Rodríguez-Hernández K, Quesada M, Valenzuela J, Fernandes GW, Aguirre-Jaimes A (2020) Ants nesting in dry fallen petioles of Cecropia obtusifolia Bertol. (Urticaceae): vertical stratification and nest site limitation. Insect Soc 67:273–279. https://doi.org/10.1007/s00040-020-00763-8
R Core Team (2020) R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna
Rančić D, Petanović R (2002) Anatomical alterations of Convolvulus arvensis L. leaves caused by eriophyoid mite Aceria malherbae Nuzz. Acta Ent Serb 7:129–136
Santos MG, Porto GF, Lancellotti IR, Feitosa RM (2019) Ant fauna associated with Microgramma squamulosa (Kaulf) de la Sota (Polypodiaceae) fern galls. Revista Brasileira de Entomologia. Rev Bras Entomol 63:101–103. https://doi.org/10.1016/j.rbe.2019.02.004
Vieira C, Romero GQ (2013) Ecosystem engineers on plants: indirect facilitation of arthropod communities by leaf-rollers at different scales. Ecology 94:1510–1518. https://doi.org/10.1890/12-1151.1
Zuur A, Ieno EN, Walker N, Saveliev AA, Smith GM (2009) Mixed effects models and extensions in ecology with. R. Springer Science & Business Media.
Acknowledgments
We thank K. Rodríguez-Hernández for help in the field, and Dora Luz Martínez Tlapa (INECOL) for the identification of the ant species. Special thanks to Rosamond Ione Coates, head of the Biological Station Los Tuxtlas-UNAM for her support and provision of facilities to conduct this research.
Funding
This study was supported by grants from Universidad Nacional Autónoma de México (PAPIIT # IN212714-3), CONACyT (# 2009-131008 and # 155016) and CONACYT-UNAM-UAGro to LANASE (2015-LN250996, 2016-LN271449 and 2017-LN280505).
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SN, VHO, MQ, and AAJ designed study. SN, VHO, and AAJ conducted study. SN analyzed the data and wrote the paper. VHO, MQ, and AAJ reviewed and edited the paper.
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Communicated by: Matthias Waltert
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Novais, S., Aguirre-Jaimes, A., Quesada, M. et al. Ecosystem engineering by leaf-rolling mites enhances arthropod diversity. Sci Nat 107, 45 (2020). https://doi.org/10.1007/s00114-020-01702-0
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DOI: https://doi.org/10.1007/s00114-020-01702-0