Ecosystem engineering and predation: the multi-trophic impact of two ant species.

1. Ants are ubiquitous ecosystem engineers and generalist predators and are able to affect ecological communities via both pathways. They are likely to influence any other terrestrial arthropod group either directly or indirectly caused by their high abundance and territoriality. 2. We studied the impact of two ant species common in Central Europe, Myrmica rubra and Lasius niger, on an arthropod community. Colony presence and density of these two ant species were manipulated in a field experiment from the start of ant activity in spring to late summer. 3. The experiment revealed a positive influence of the presence of one ant colony on densities of decomposers, herbivores and parasitoids. However, in the case of herbivores and parasitoids, this effect was reversed in the presence of two colonies. 4. Generally, effects of the two ant species were similar with the exception of their effect on Braconidae parasitoid densities that responded positively to one colony of M. rubra but not of L. niger. 5. Spider density was not affected by ant colony manipulation, but species richness of spiders responded positively to ant presence. This effect was independent of ant colony density, but where two colonies were present, spider richness was significantly greater in plots with two M. rubra colonies than in plots with one colony of each ant species. 6. To test whether the positive ecosystem engineering effects were purely caused by modified properties of the soil, we added in an additional experiment (i) the soil from ant nests (without ants) or (ii) unmodified soil or (iii) ant nests (including ants) to experimental plots. Ant nest soil on its own did not have a significant impact on densities of decomposers, herbivores or predators, which were significantly, and positively, affected by the addition of an intact nest. 7. The results suggest an important role of both ant species in the grassland food web, strongly affecting the densities of decomposers, herbivores and higher trophic levels. We discuss how the relative impact via bottom-up and top-down effects of ants depends on nest density, with a relatively greater top-down predatory impact at higher densities.

[1]  Michael J. Crawley,et al.  The R book , 2022 .

[2]  Dirk Sanders,et al.  Intraguild interactions among generalist predator functional groups drive impact on herbivore and decomposer prey , 2011 .

[3]  M. Entling,et al.  Large variation of suction sampling efficiency depending on arthropod groups, species traits, and habitat properties , 2011 .

[4]  A. Hoffmann,et al.  Influence of native ants on arthropod communities in a vineyard , 2010 .

[5]  J. Piñol,et al.  Ant versus bird exclusion effects on the arthropod assemblage of an organic citrus grove , 2010 .

[6]  L. Gálvez Bravo,et al.  European rabbits as ecosystem engineers: warrens increase lizard density and diversity , 2009, Biodiversity and Conservation.

[7]  J. Montoya-Lerma,et al.  Herbivory of Atta cephalotes (Hymenoptera: Myrmicinae) on three plant substrates , 2008 .

[8]  S. Schuch,et al.  Potential positive effect of the ant species Lasius niger on linyphiid spiders , 2008 .

[9]  V. Wolters,et al.  Soil engineering ants increase grass root arbuscular mycorrhizal colonization , 2008, Biology and Fertility of Soils.

[10]  J. Moya‐Laraño,et al.  Direct and indirect effects of ants on a forest-floor food web. , 2007, Ecology.

[11]  Dirk Sanders,et al.  Intraguild interactions between spiders and ants and top-down control in a grassland food web , 2006, Oecologia.

[12]  Hélène Gondard,et al.  Forest Management and Plant Species Diversity in Chestnut Stands of Three Mediterranean Areas , 2006, Biodiversity & Conservation.

[13]  A. Dixon,et al.  ECOLOGY AND EVOLUTION OF APHID-ANT INTERACTIONS , 2005 .

[14]  M. J. Albert,et al.  Assessing ant seed predation in threatened plants : a case study , 2005 .

[15]  H. Bassirirad,et al.  Diminishing effects of ant mounds on soil heterogeneity across a chronosequence of prairie restoration sites , 2005 .

[16]  T. Herben,et al.  Ant-induced soil modification and its effect on plant below-ground biomass , 2005 .

[17]  Clive G. Jones,et al.  PREDICTING EFFECTS OF ECOSYSTEM ENGINEERS ON PATCH‐SCALE SPECIES RICHNESS FROM PRIMARY PRODUCTIVITY , 2004 .

[18]  J. Negishi,et al.  Detritus processing, ecosystem engineering and benthic diversity: a test of predator–omnivore interference , 2004 .

[19]  L. Lenoir Response of the foraging behaviour of red wood ants (Formica rufa group) to exclusion from trees , 2003 .

[20]  Jeffrey A. Crooks,et al.  Characterizing ecosystem‐level consequences of biological invasions: the role of ecosystem engineers , 2002 .

[21]  Z. Reznikova,et al.  Interaction of the Ant Myrmica rubraL. as a Predator with Springtails (Collembola) as a Mass Prey , 2001, Doklady Biological Sciences.

[22]  J. Stachowicz Mutualism, Facilitation, and the Structure of Ecological Communities , 2001 .

[23]  M. Shachak,et al.  Integration of ecosystem engineering and trophic effects of herbivores , 2001 .

[24]  D. Bates,et al.  Mixed-Effects Models in S and S-PLUS , 2001 .

[25]  H. Godfray,et al.  Predators and mutualists influence the exclusion of aphid species from natural communities , 1999, Oecologia.

[26]  K. Karhu Effects of ant exclusion during outbreaks of a defoliator and a sap‐sucker on birch , 1998 .

[27]  P. Folgarait Ant biodiversity and its relationship to ecosystem functioning: a review , 1998, Biodiversity & Conservation.

[28]  George H. Leonard,et al.  THE ROLE OF POSITIVE INTERACTIONS IN COMMUNITIES: LESSONS FROM INTERTIDAL HABITATS , 1997 .

[29]  J. Lawton,et al.  POSITIVE AND NEGATIVE EFFECTS OF ORGANISMS AS PHYSICAL ECOSYSTEM ENGINEERS , 1997 .

[30]  M. Uriarte,et al.  Experimental evidence for a behavior-mediated trophic cascade in a terrestrial food chain. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[31]  T. Itioka,et al.  The consequences of ant-attendance to the biological control of the red wax scale insect Ceroplastes rubens by Anicetus beneficus , 1996 .

[32]  W. Whitford The importance of the biodiversity of soil biota in arid ecosystems , 1996, Biodiversity & Conservation.

[33]  W. Völkl,et al.  Ant‐attendance as a critical factor in the biological control of the banana aphid Pentalonia nigronervosa Coq. (Hom. Aphididae) in Oceania , 1996 .

[34]  J. Lawton,et al.  Organisms as ecosystem engineers , 1994 .

[35]  W. Völkl,et al.  Interactions between ants attendingAphis fabae ssp.cirsiiacanthoidis on thistles and foraging parasitoid wasps , 1993, Journal of Insect Behavior.

[36]  Francis D. Hole,et al.  Effects of animals on soil , 1981 .

[37]  E. Lipkow Braconiden als Schmarotzer von Staphyliniden , 1965, Entomophaga.

[38]  B. Bartlett The Influence of Ants Upon Parasites, Predators, and Scale Insects , 1961 .

[39]  B. Seifert Die Ameisen Mittel- und Nordeuropas , 2007 .

[40]  W. Völkl,et al.  Behavioral strategies of aphid hyperparasitoids to escape aggression by honeydew-collecting ants , 2005, Journal of Insect Behavior.

[41]  A. M. Boulton,et al.  How Ant Nests Increase Soil Biota Richness and Abundance: A Field Experiment , 2004, Biodiversity & Conservation.

[42]  J. Frouz,et al.  The effect of Lasius niger (Hymenoptera, Formicidae) ant nest on selected soil chemical properties , 2003 .

[43]  V. Wolters,et al.  Microbial activity and functional diversity in the mounds of three different ant species , 2000 .

[44]  C. Grant,et al.  The impact of ant bioturbation and foraging activities on surrounding soil properties , 2000 .

[45]  V. Wolters,et al.  Soil function in a changing world: the role of invertebrate ecosystem engineers , 1997 .

[46]  A. Moldenke,et al.  Negative effects of ant foraging on spiders in Douglas-fir canopies , 1997, Oecologia.

[47]  M. Allen,et al.  The interaction of harvester ants and vesicular-arbuscular mycorrhizal fungi in a patchy semi-arid environment: the effects of mound structure on fungal dispersion and establishment , 1993 .

[48]  M. Shaw,et al.  Classification and biology of braconid wasps (Hymenoptera: Braconidae) , 1991 .