Chapter 3 Predatory Stink Bugs (Asopinae) and the Role of Substrate-borne VibrationalSignals in Intra- and Interspecific Interactions

We studied the foraging behaviour of two sympatric rodents (Meriones meridianus and Dipus sagitta) in the Gobi Desert, Northwestern China. The role of the foraging behaviour in promoting species coexistence was also examined. We used giving-up densities (GUDs) in artificial food patches to measure the patch use of rodents and video trapping to directly record the foraging behaviour, vigilance, and interspecific interactions. Three potential mechanisms of coexistence were evaluated (1) microhabitat partitioning; (2) spatial heterogeneity of resource abundance with a tradeoff in foraging efficiency vs. locomotion; and (3) temporal partitioning on a daily scale. Compared to M. meridianus, D. sagitta generally possessed lower GUDs, spent more time on patches, and conducted more visits per tray per capita, regardless of microhabitat. However, M. meridianus possessed advantages in average harvesting rates and direct interference against D. sagitta. Our results only partly support the third mechanism listed above. We propose another potential mechanism of coexistence: a tradeoff between interference competition and safety, with M. meridianus better at interference competition and D. sagitta better at avoiding predation risk. This mechanism is uncommon in previously studied desert rodent systems.

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Behavioral interactions between a coexisting rodent Micaelamys namaquensis and macroscelid Elephantulus myurus

Current Zoology ◽

10.1093/czoolo/56.4.395 ◽

2010 ◽

Vol 56 (4) ◽

pp. 395-400 ◽

Cited By ~ 1

Author(s):

Jennifer Lancaster ◽

Neville Pillay

Keyword(s):

Species Coexistence ◽

Interspecific Interactions ◽

Behavioral Interactions ◽

Direct Competition ◽

Rocky Outcrop ◽

Small Mammal Communities ◽

Low Levels ◽

Specialist Species ◽

Mammal Communities

Abstract A number of mechanisms are known to influence coexistence in small mammal communities. However, the role of behavioral interactions in promoting species coexistence is under-represented in the literature. We studied the behavioral interactions of two coexisting small mammals, the Namaqua rock mouse Micaelamys namaquensis (Rodentia) and the Rock sengi Elephantulus myurus (Macroscelidae), which have high dietary and microhabitat overlap. Using wild-caught individuals, intra- and interspecific dyadic encounters were staged in tanks on a neutral rocky outcrop. Interspecific dyads displayed significantly more active avoidance behavior. There was no support for the prediction that the larger, more specialist species, E. myurus, is behaviorally dominant over M. namaquensis. Intraspecific encounters of E. myurus showed significantly more passive avoidance and amicable behavior, whereas the behavior of M. namaquensis did not differ between intra- and inter-specific encounters, both of which were characterized by low levels of aggression and amicability. Thus, due to the lack of aggression, direct competition appears weak and instead mutual avoidance may reduce or minimize interspecific interactions, potentially promoting coexistence.

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Ecological Interactions and Macroevolution: A New Field with Old Roots

Annual Review of Ecology Evolution and Systematics ◽

10.1146/annurev-ecolsys-011720-121505 ◽

2020 ◽

Vol 51 (1) ◽

pp. 215-243 ◽

Cited By ~ 2

Author(s):

David H. Hembry ◽

Marjorie G. Weber

Keyword(s):

Species Interactions ◽

Interspecific Interactions ◽

Biotic Interactions ◽

Evolutionary Change ◽

Future Research ◽

Ecological Interactions ◽

Open Questions ◽

Work Done ◽

Lineage Diversification

Linking interspecific interactions (e.g., mutualism, competition, predation, parasitism) to macroevolution (evolutionary change on deep timescales) is a key goal in biology. The role of species interactions in shaping macroevolutionary trajectories has been studied for centuries and remains a cutting-edge topic of current research. However, despite its deep historical roots, classic and current approaches to this topic are highly diverse. Here, we combine historical and contemporary perspectives on the study of ecological interactions in macroevolution, synthesizing ideas across eras to build a zoomed-out picture of the big questions at the nexus of ecology and macroevolution. We discuss the trajectory of this important and challenging field, dividing research into work done before the 1970s, research between 1970 and 2005, and work done since 2005. We argue that in response to long-standing questions in paleobiology, evidence accumulated to date has demonstrated that biotic interactions (including mutualism) can influence lineage diversification and trait evolution over macroevolutionary timescales, and we outline major open questions for future research in the field.

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Coexistence of surface and cave amphipods in an ecotone environment

Contributions to Zoology ◽

10.1163/18759866-08002003 ◽

2011 ◽

Vol 80 (2) ◽

pp. 133-141 ◽

Cited By ~ 16

Author(s):

Roman Luštrik ◽

Martin Turjak ◽

Simona Kralj-Fišer ◽

Cene Fišer

Keyword(s):

Leaf Litter ◽

Species Interactions ◽

Interspecific Interactions ◽

Habitat Choice ◽

Intraspecific Interactions ◽

Size Dependent ◽

Predation Effects ◽

Similar Body ◽

Subterranean Species

Interspecific interactions between surface and subterranean species may be a key determinant for species distributions. Until now, the existence of competition (including predation) between these groups has not been tested. To assess the coexistence and potential role of interspecific interactions between surface Gammarus fossarum and subterranean Niphargus timavi, and to determine their micro distributions, we conducted a series of field and laboratory observations. We aimed to determine: (1) species substrate preference, (2) whether the presence of G. fossarum influences the habitat choice of N. timavi, and (3) possible predation effects on micro habitat choice of small juveniles. Throughout a small river in SW Slovenia, N. timavi was predominantly found in leaf litter and gravel, but rarely in sand. In the sand however, we exclusively found juveniles. In contrast, surface G. fossarum sheltered mainly in leaf litter. A similar, body size dependent, micro distribution was observed in G. fossarum, where small individuals were generally found in gravel and sand. The presence of G. fossarum affected the micro distribution of juvenile, but not adult, N. timavi. In the laboratory we observed predation and cannibalism in both species. Niphargus timavi, however, appeared to be a more efficient predator than G. fossarum. In particular, juvenile N. timavi were most vulnerable to preying by adults of both species. This probably affected the distribution of juvenile N. timavi that chose finer substrates when placed with adult individuals in an aquarium with granules of different size. To understand the distribution of subterranean species, the summed effect of intraspecific interactions, as well as surface – subterranean species interactions, in particular between individuals of different size, should be taken into account.

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The Effect of Artificial Mowing on the Competition of Phragmites australis and Spartina alterniflora in the Yangtze Estuary

Scientifica ◽

10.1155/2017/7853491 ◽

2017 ◽

Vol 2017 ◽

pp. 1-8 ◽

Cited By ~ 1

Author(s):

Yue Yuan ◽

Chao Zhang ◽

Dezhi Li

Keyword(s):

Spartina Alterniflora ◽

Phragmites Australis ◽

Native Species ◽

Interspecific Interactions ◽

Interaction Strength ◽

Yangtze Estuary ◽

The Yangtze Estuary ◽

Neighbor Effect ◽

Index Effect

Spartina alterniflora Loisel. is one of the most invasive species in the world. However, little is known about the role of artificial mowing in its invasiveness and competiveness. In this work, we studied the effect of mowing on its interspecific interactions with native species Phragmites australis (Cav.) Trin ex Steud of the Yangtze Estuary, China. We calculated their relative neighbor effect (RNE) index, effect of relative crowding (Dr) index, and interaction strength (I) index. The results showed that the RNE of Phragmites australis and Spartina alterniflora was 0.354 and 0.619, respectively, and they have competitive interactions. The mowing treatments can significantly influence the RNE of Phragmites australis and Spartina alterniflora on each other. Concretely, the RNE of Spartina alterniflora in the removal treatments was significantly higher than the value in the controls. But the RNE of Phragmites australis in the removal treatments was significantly lower than the value in the controls. Meanwhile, Dr of the two species on the targets was higher in the removal treatments than that in the controls, and the opposite was for I. We concluded that artificial mowing could promote the invasion of Spartina alterniflora by increasing its competitive performance compared with native species.

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Keystone species and food webs

Philosophical Transactions of the Royal Society B Biological Sciences ◽

10.1098/rstb.2008.0335 ◽

2009 ◽

Vol 364 (1524) ◽

pp. 1733-1741 ◽

Cited By ~ 118

Author(s):

Ferenc Jordán

Keyword(s):

Current Knowledge ◽

Interspecific Interactions ◽

Keystone Species ◽

Ecosystem Functions ◽

General Interest ◽

Interaction Structure ◽

Structure And Dynamics ◽

Rich Interaction ◽

Natural Communities

Different species are of different importance in maintaining ecosystem functions in natural communities. Quantitative approaches are needed to identify unusually important or influential, ‘keystone’ species particularly for conservation purposes. Since the importance of some species may largely be the consequence of their rich interaction structure, one possible quantitative approach to identify the most influential species is to study their position in the network of interspecific interactions. In this paper, I discuss the role of network analysis (and centrality indices in particular) in this process and present a new and simple approach to characterizing the interaction structures of each species in a complex network. Understanding the linkage between structure and dynamics is a condition to test the results of topological studies, I briefly overview our current knowledge on this issue. The study of key nodes in networks has become an increasingly general interest in several disciplines: I will discuss some parallels. Finally, I will argue that conservation biology needs to devote more attention to identify and conserve keystone species and relatively less attention to rarity.

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Intraguild predation among ladybeetles and a green lacewing: do the larval spines of Curinus coeruleus(Coleoptera: Coccinellidae) serve a defensive function?

Bulletin of Entomological Research ◽

10.1079/ber2003269 ◽

2003 ◽

Vol 93 (6) ◽

pp. 499-505 ◽

Cited By ~ 30

Author(s):

J.P. Michaud ◽

A.K. Grant

Keyword(s):

Harmonia Axyridis ◽

Interspecific Interactions ◽

Dorsal Surface ◽

Petri Dish ◽

Green Lacewing ◽

Chrysoperla Rufilabris ◽

Size And Morphology ◽

Curinus Coeruleus ◽

Mandible Size

AbstractLaboratory experiments examined interspecific interactions between larvae of three coccinellid species, Curinus coeruleus Mulsant (Chilocorinae), Harmonia axyridis Pallas and Olla v-nigrum (Mulsant) (Coccinellinae), and between these and larvae of the green lacewing, Chrysoperla rufilabris (Burmeister). Larvae of C. coeruleus, although defended on their dorsal surface with long spines, had the smallest mandibles, were the slowest-moving, and the least successful in interspecific larval combat. The long spines of third instar C. coeruleusappeared to reduce their palatability as food to H. axyridis and O. v-nigrum larvae in choice tests with dead larvae, but were not an effective defence against these species in Petri dish arenas. Larvae of O. v-nigrum had a smooth dorsal surface, were intermediate in terms of mandible size, but were the fastest moving, a trait that benefited their survival in intraguild combat. Larvae of H. axyridis were intermediate with respect to dorsal spines and speed of movement, but had the largest mandibles. This species was the most effective intraguild combatant among the coccinellids and the only one to successfully compete against C. rufilabris larvae of similar age. The speed, manoeuverability and long mandibles of C. rufilabris enabled them to impale coccinellid larvae at a relatively safe distance. The spines of C. coeruleus larvae impeded laterally oriented attacks by C. rufilabris, but did not provide sustained protection from repeated attacks. Success in these interactions appeared largely a function of offensive weaponry (mandible size and morphology) and speed of movement, although the role of dorsal spines as defensive structures was not ruled out. Rates of larval cannibalism were highest for C. rufilabris and largely mirrored the level of aggression observed in interspecific combat for each species.

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