Effects of seed aggregation on the removal rates of elaiosome-bearing Chelidonium majus and Viola odourata seeds carried by Formica polyctena ants

In a field dominated by Formica polyctena Foerst. ants, we examined the effect of seed aggregation on the seed-removal rates of two plant species: a large-seeded obligate myrmecochore Viola odorata L. and a small-seeded diplochore Chelidonium majus L., which was autochorous as well as myrmecochorous. The effect was statistically non-significant in V. odorata but significant in C. majus, with more closely aggregated seeds having higher removal rates. The large seeds of the obligate myrmecochore were more quickly discovered and repeatedly removed by ant workers than were the small seeds of the diplochore.     

Versuche zur frage der individuellen futterverteilung bei der kleinen roten Waldameise (Formica polyctena Foerst.)

Résumé La distribution du butin a été suivie individuellement chez des ouvrières deFormica polyctena à l'extérieur de la colonie. On a observé la distribution effectuée par une ou plusieurs butineuses nourries avec du miel radioactif, après des temps variables.Malgré la distribution d'une quantié de nourriture surabondante, on constate que certains individus en reçoivent plus que d'autres. Il n'y a jamais égalité de niveau entre tous les individus d'un groupe.Les ouvrières de l'extérieur, qui avaient reçu une large part au commencement de la distribution, en avaient encore la plus grande partie à la fin de l'expérience, tandis que celles qui n'avaient rien ou reçu une part minime ne les égalaient jamais.Le même résultat a été observé quand la nourriture a été offerte directement sans passer par l'intermédiaire de butineuses. En utilisant des ouvrières ramassées à l'extérieur dans la forêt six heures avant l'expérience, on trouve également les mêmes résultats. Les ouvrières ayant reçu une ration importante refusent de la nourriture aux quémandeuses quand on les met au contact d'ouvrières affamées. Après avoir séparé les fourmis ayant reçu une grosse ration et celles n'anyant rien rçu ou très peu, il est apparu que ces dernières n'étatient pas aussi actives en ce qui concerne la distribution. Cela est également vrai quand on offre le butin directement sans l'intermédiaire des butineuses.L'observation individuelle et l'enregistrement du butin montrent que l'activité des quémandeuses ne provoque pas toujours la transmission. Celle-ci peut être refusée par des fourmis au jabot bien rempli.Le comportement des fourmis ayant reçu une grande ration et conservant la nourriture dans leur jabot est discuté en liaison avec la circulation de la nourriture dans le nid et l'existence d'insectes «transporteurs».

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Zusammenfassung Bei der individuellen Verfolgung von radioaktiven Futter bei kleinen Gruppen von Aussendiensttieren der AmeiseFormica polyctena treten auch bei optimalem Futterangebot unterschiedliche Mengen bei den Einzelindividuen am Ende ciner Verteilung auf.In den Aussendienstgruppen haben meist die Tiere, die am Anfang viel erhalten haben, auch am Ende noch das meiste, oft noch stark gesteigert, während Tiere, die am Anfang wenig erhalten hatte, auch am Ende noch am tiefsten lagen. Eine Parallelität zeichnet sich klar ab; auch bei freier Aufaahme von Futter.Frisch gefangene Aussendiesttiere zeigten ein ähnliches Ergebnis.Die von Einzeltieren aufgenommene grosse Menge wird auch beim Zusetzen hungriger Tiere oft im Kropf zurückbehalten.Wurden in einer Gruppe Tiere, die viel, und Tiere, die wenig erhalten hatten, separiert, dann zeigten die schwach-radioaktiven Tiere eine weit geringere Verteilungs- und Aufnahmeaktivität als die Gruppe der starkradioaktiven Tiere. Dies gilt auch für die Aufnahme und Weiterverteilung von freiem Futter.Bei der individuellen Beobachtung und Ausmessung weitergegebenen Futters zeigte sich, dass nich unbedingt die Bettelaktivität für die erhaltenen Futtermenge entscheidend ist. Tiere mit gefülltem Kropf verweigerten häufig bei Anbettelung eine Weitergabe.Das Verhalten von Tieren, die während der verschiedenen Verteilungen das meiste erhielten und auch speicherten, wird im Zusammenhang mit dem Nahrungsfluss im Nest diskutiert, wobei auch das Vorhandensein von «Transporttieren» im Aussendienstbereich erörtert wird.

     

Effect of parameters of myrmecochorous syndrome on rates of removal of Corydalis cava and Pulmonaria obscura by Formica polyctena ants]

Complex of adaptations of myrmecochorous plants to the ant dispersal composes so called myrmecochorous syndrome. To study the effect of some morphological and anatomical adaptations on diaspore attractiveness for ants, the field experiments with diaspores and their extracts were carried out. It was shown that chemical cues attracting ants are located in different parts of diaspores: in elaiosome only (C. cava) or in elaiosome, coverage of external layer of the fruit and in the fruit collar (P. obscura). Anatomy of adaptive structure of diaspores is also discussed together with the results of field experiments.     

Cyclic release of carbon dioxide accompanied by abdominal telescoping movements in forager ants of Formica polyctena (Hymenoptera, Formicidae)

Abstract.  Discontinuous gas exchange and abdominal telescoping movements were investigated in intact forager ants of Formica polyctena Förster. For simultaneous recording of discontinuous gas exchange and abdominal movements, an electrolytic differential microrespirometer was combined with an infrared-optical device using an infrared-sensor diode commonly applied as a cardiograph in insect studies. The air in the insect chamber was saturated with water vapour, and an ant was contacted with a sliver of wet filter paper. Accordingly, the ants used in the experiments were regarded as being hydrated. The enforced immobility of the ant in the respirometry chamber (0.15 mL volume) induced continuous struggling during the first hours of measurement but, after 3–4 h, the activity periods alternated with quiescent periods when regular cycles of discontinuous gas exchange (8.97 mHz) were displayed. After remaining in the chamber for a day, the ants showed such cycles (8.15 mHz) without any interruption by periods of activity. The cyclic release of carbon dioxide (burst) was accompanied by a bout of telescoping movements of the abdominal segments (rapid contractions and slow relaxations), which were interpreted as active ventilation. The irregular and rare abdominal contractions, recorded during the interburst periods on the first day of measurements, were regarded as a symptom of stress because these disappeared on the second day. In approximately 20% of foragers, the telescoping movements during the interburst periods were characterized by very rapid (0.09 s) protractions and slow retractions of the abdominal segments, obviously acting as inspiration movements. The results do not support the hypothesis that discontinuous gas exchange is an adaptation for conserving water in ants.     

Savanna fires increase rates and distances of seed dispersal by ants

Myrmecochory (seed dispersal by ants) is a prominent dispersal mechanism in many environments, and can play a key role in local vegetation dynamics. Here we investigate its interaction with another key process in vegetation dynamics—fire. We examine ant dispersal of seeds immediately before and after experimental burning in an Australian tropical savanna, one of the world’s most fire-prone ecosystems. Specifically, our study addressed the effects of burning on: (1) the composition of ants removing seeds, (2) number of seed removals, and (3) distance of seed dispersal. Fire led to higher rates of seed removal post-fire when compared with unburnt habitat, and markedly altered dispersal distance, with mean dispersal distance increasing more than twofold (from 1.6 to 3.8 m), and many distance dispersal events greater than the pre-fire maximum (7.55 m) being recorded. These changes were due primarily to longer foraging ranges of species of Iridomyrmex, most likely in response to the simplification of their foraging landscape. The significance of enhanced seed-removal rates and distance dispersal for seedling establishment is unclear because the benefits to plants in having their seeds dispersed by ants in northern Australia are poorly known. However, an enhanced removal rate would enhance any benefit of reduced predation by rodents. Similarly, the broader range of dispersal distances would appear to benefit plants in terms of reduced parent–offspring conflict and sibling competition, and the location of favourable seedling microsites. Given the high frequency of fire in Australian tropical savannas, enhanced benefits of seed dispersal by ants would apply for much of the year.     

Winged leaf-cutting ants on nuptial flights used as transport by Attacobius spiders for dispersal

Abstract.  1. Sexuals of a leaf-cutting ant, Atta bisphaerica Forel, left their nest for nuptial flights in October to December.
2. When leaving a nest, 53 of the 479 winged sexuals (or alates) observed (11.1%) carried up to three inquiline spiders of Attacobius luederwaldti .
3. Spiders exclusively selected winged sexuals, not workers, and preferred females, indicating their expectation of the stronger flight ability of females. Neither these sexuals nor workers that appeared out of the nest on flight days attempted to remove or attack spiders on the body of alates.
4. New qucens landing from their nuptial flight did not carry spiders, indicating that the spiders had left the ants in the sky to be dispersed by wind.
5. No spiders were found in more than 100 incipient nests, which were estimated to be 2–3 months old. This suggests that the spiders jumped off the alate during mid-flight and dispersed on the wind to inhabit larger nests.     

Seed dispersal by woolly monkeys (Lagothrix lagothricha) at Tinigua National Park, Colombia: dispersal distance, germination rates, and dispersal quantity

The purpose of this study was to describe seed dispersal patterns of woolly monkeys (Lagothrix lagothricha) in terms of dispersal quantity and two factors related to dispersal quality: germination rates of dispersed seeds and the distance of dispersal to parental trees. The possible influence of retention time, travel distance, seed size, activity patterns, and fruit abundance on dispersal distance was also analyzed. Observations on activity, diet, daily movements, and seed dispersal were made on focal individuals of a group of woolly monkeys at a tropical rain forest in Tinigua National Park (Colombia). Sixty hours of focal samples per month were completed during 1 year. A total of 753 depositions were collected during the study. Each dropping contained seeds from an average of 2.68 different species (range 0 to 9). Collected depositions contained an underestimated total of 50,168 seeds (>1 mm). Given a population density of 30 individuals/km2, the woolly monkeys in the study area disperse more than 25,000 seeds/km2/day. These seeds belong to 112 different plant species. Germination rates of dispersed seeds are usually similar or higher than those of non-swallowed seeds. It was possible to determine dispersal distance in 264 cases when the focal animal was continuously followed from ingestion at the parental tree to deposition. Only 1% of these depositions landed in close proximity (<15 m) of the parental tree. It was very common that the droppings were deposited between 100 and 500 m from the parent tree, and up to 1.5 km. Higher retention times and longer travel distances were not correlated with increased dispersal distance. Two main reasons for this result were the prolonged and variable passage rates (avg=11.2 hr+/-6.5 SD.) and the circuitous routes of monkeys in this forest.     

Correction to: Route reassessment by transporter ants improves speed and directional accuracy of cooperative transport in Formica japonica

Journal of Ethology - The article Route reassessment by transporter ants improves speed and directional accuracy of cooperative transport in Formica japonica, written by Shumpei Hisamoto, Natsumi...     

Internal transport of seeds by migratory waders in the Odiel marshes, south-west Spain: consequences for long-distance dispersal

Waders (Charadriiformes) undergo particularly long migratory flights, making them ideal vectors for long-distance dispersal. We present a study of dispersal of plant seeds by migratory waders in the Odiel saltworks in south-west Spain. This is the first field study to demonstrate excretion of viable seeds by waders. Viable seeds of Mesembryanthemum nodiflorum (Aizoaceae), Sonchus oleraceus (Asteraceae) and Arthrocnemum macrostachyum (Chenopodiaceae) were frequent in pellets and faeces of redshank Tringa totanus , spotted redshank Tringa erythropus , and black-tailed godwit Limosa limosa during spring and autumn migrations, but less frequent during winter. Another 11 seed types were recorded at low density. More intact M. nodiflorum seeds were present in redshank faeces than in their pellets, but seeds extracted from pellets were more likely to germinate. More S. oleraceus seeds were transported per redshank pellet in spring, but more redshank migrated through the area in autumn. The distributions of the plants transported are consistent with an important role for long-distance dispersal by waders. M. nodiflorum and S. oleraceus are introduced weeds in the Americas and Australasia, and dispersal by birds may contribute to their rapid spread. Although S. oleraceus is generally thought to be wind-dispersed, birds may be responsible for longer distance dispersal events.     

Secondary seed dispersal by ants in Neotropical cerrado savanna: species‐specific effects on seeds and seedlings of Siparuna guianensis (Siparunaceae)

1. Most woody plant species in tropical habitats are primarily vertebrate‐dispersed, but interactions between ants and fallen seeds and fruits are frequent. This study assesses the species‐specific services provided by ants to fallen arillate seeds of Siparuna guianensis, a primarily bird‐dispersed tree in cerrado savanna. The questions of which species interact with fallen seeds, their relative contribution (versus vertebrates) to seed removal, and the potential effects on seedling establishment are investigated. 2. Seeds are removed in similar quantities in caged and control treatments, suggesting that ants are the main dispersers on the ground. Five ant species attended seeds. Pheidole megacephala (≈0.4 cm) cooperatively transported seeds, whereas the smaller Pheidole sp. removed the seed aril on spot. Large (> 1.0 cm) Odontomachus chelifer, Pachycondyla striata, and Ectatomma edentatum individually carried seeds up to 4 m. Bits of aril are fed to larvae and intact seeds are discarded near the nest entrance. 3. Overall, greater numbers of seedlings were recorded near ant nests than in control plots without nests. This effect, however, was only detected near P. megacephala and P. striata nests, where soil penetrability was greater compared with controls. Soil nutrients did not differ between paired plots. 4. This study confirms the prevalence of ant–seed interactions in cerrado and shows that ant‐derived benefits are species‐specific. Ant services range from seed cleaning on the spot to seed displacement promoting non‐random spatial seedling recruitment. Although seed dispersal distances by ants are likely to be shorter than those by birds, our study of S. guianensis shows that fine‐scale ant‐induced seed movements may ultimately enhance plant regeneration in cerrado.     

Characterization of microsatellite loci in red wood ants Formica (s. str.) spp. and the related genus Polyergus

Ants are interesting subjects for studies of evolution of altruism. We developed 13 microsatellite loci in a red wood ant Formica (s. str.) yessensis from random amplified polymorphic DNA fragments to study genetic structure within populations and colonies. Five loci bore two to five alleles in both F. (s. str.) yessensis and F. (s. str.) truncorum and two were also polymorphic in a related species, Polyergus samurai. Results suggest that the loci will be useful in evolutionary studies on Formica and Polyergus species.     

Roles of species-preferential seed dispersal by ants and endozoochory in Melampyrum (Orobanchaceae)

Aims Melampyrum pratense and M. subalpinum are two myrmecochorous species, which possess similar habitat requirements and frequently occur together. Despite this, their population sizes differ markedly. Melampyrum pratense populations are usually very large, whereas M. subalpinum has rather small and isolated populations. We suggest that such an imbalance might be partially influenced by the difference in ant-mediated seed-removal rates. Genus Melampyrum is considered to be exclusively myrmecochorous, though to achieve the recent distribution of some Melampyrum species during the Holocene myrmecochory would be highly insufficient. We suggest that endozoochory takes place in the long-distance migration, whereas myrmecochory is important for the removal of seeds on a local scale.Methods For seed-preference analysis, M. pratense and M. subalpinum mixed seed samples were placed around Formica polyctena anthills. After a period of time, the remaining seeds of both species were counted for each sample. The results were analysed by analysis of variance and generalized linear mixed-effect model. To test myrmecochorous removal distances, M. pratense seeds were covered with fluorescent dactyloscopic powder and placed in the vicinity of a large ant trail. The area around the starting plot was searched in the dark using UV LED torchlight 7h after the beginning. The distance from the starting plot was measured for each seed found. Birds, rodents, leporine and a ruminant were fed with M. pratense seeds and fresh plants to test the possibility of endozoochorous dispersal of the species. Animal droppings were searched for intact seeds.Important findings Our field studies show that from mixed seed samples, containing both species, ants significantly preferred the seeds of M. pratense. This may be one of factors that has positive influence on M. pratense success in seed dispersal on mixed stands and consequently in the colonization of favourable sites. Experiments focusing on ant-mediated dispersal distance revealed that F. polyctena ants are able to move seeds over a distance of 36 m in only 7h. This distance is among the furthest known myrmecochorous removals of forest plant seeds. A new Melampyrum seed disperser Oligolophus tridens (Opiliones) was observed repeatedly. Our pilot study documented that Melampyrum seeds are able to pass through the digestive tract of a cow intact. This suggests that large ruminants such as deer, bison or forest-grazing livestock may function as important long-distance dispersers of Melampyrum species.     

Pollen dispersal and long distance transport: the case of thermophilic pollen in subarctic Canada

At Kuujjuarapik, on the eastern coast of Hudson Bay (Canada), thermophilic tree pollens, all of long distance origin, are found in low concentrations, but throughout the pollen season. A Cour impaction pollen trap has allowed us to obtain statistically significant concentrations. The analysis of the origins of synchronous air masses by back-trajectories shows that the weekly variations of thermophilic pollens can be linked to air masses coming either from northern regions (Alaska or Beaufort Sea) for minima, and southern regions (Gulf of Mexico) for maxima.     

A novel trap for quantifying the dispersal of seeds by wind

Question: Understanding the aerial movement of seed is of great significance to the management of native and invasive plant species, but has proven difficult to measure. Here we examine how a more quantitative approach to measuring the aerial movement of seed can be achieved. Location: SE Australia. Methods: We describe a novel seed trap (the ‘Melbourne trap’), for which the proportion of free‐stream airflow through the trap can be measured, allowing a more quantitative approach to measuring aerial seed movement. We assessed airflow through the Melbourne trap in a wind tunnel and describe how this information, along with measurements of wind speed and direction, can now be used to derive seed density per volume of airflow. We compare the seed capture and retention efficiency of the Melbourne trap with two simpler and cheaper trap designs, bucket traps and sticky traps. Results: Melbourne and bucket traps captured significantly more species than sticky traps. Seed catch was dominated numerically by Lachnagrostis filiformis (G. Forst.) Trin. Melbourne traps proved more effective than sticky traps, but not bucket traps, in capturing L. filiformis, based on intake area. For all other seeds, Melbourne traps were more effective than both bucket and sticky traps. Conclusion: The Melbourne trap design is a significant advance in quantifying seed dispersal by wind. Melbourne traps will improve the capacity and accuracy of studies that seek to: (i) quantify seed fluxes across landscapes boundaries; (ii) assess directionality of dispersal; (iii) understand processes controlling seed release; and (iv) compare dispersal in wind and water.     

Infection rates of perennial ryegrass seeds (Lolium perenne L.) with different fungi

Authors made investigations to map occurrence of different fungal pathogens on seeds of varieties from different grass species. This work presents data on three cultivars of perennial ryegrass (Lolium perenne L.). When seeds were germinated, eight genuses of fungi were identified belonging to the Deuteromycota. Alternaria was the most frequently occurred genus. Drechslera, Bipolaris, Cladosporium, Stemphylium, and Epicoccum spp. has also been found in the seed samples. Two genus of fungal pathogens (Embellisia and Septonema) were identified which were not mentioned in Hungary so far.     

Limited female dispersal predicts the incidence of Wolbachia across ants (Hymenoptera: Formicidae)

The endosymbiotic bacterium Wolbachia is perhaps the greatest panzootic in the history of life on Earth, yet remarkably little is known regarding the factors that determine its incidence across species. One possibility is that Wolbachia more easily invades species with structured populations, due to the increased strength of genetic drift and higher initial frequency of infection. This should enable strains that induce mating incompatibilities to more easily cross the threshold prevalence above which they spread to either fixation or a stable equilibrium infection prevalence. Here, we provide empirical support for this hypothesis by analysing the relationship between female dispersal (as a proxy for population structure) and the incidence of Wolbachia across 250 species of ants. We show that species in which the dispersal of reproductive females is limited are significantly more likely to be infected with Wolbachia than species whose reproductive ecology is consistent with significant dispersal of females, and that this relationship remains after controlling for host phylogeny. We suggest that structured host populations, in this case resulting from limited female dispersal, may be an important feature determining how easily Wolbachia becomes successfully established in a novel host, and thus its occurrence across a wide diversity of invertebrate hosts.     

Aerial dispersal of phytoseiid mites (Acari: Phytoseiidae): estimating falling speed and dispersal distance of adult females

Aerial dispersal is important to immigration and redistribution of phytoseiid mites that often can provide biological control of spider mite pests. Falling speed of a mite and wind largely determine dispersal distance of such a passively blown organism. A diffusion model of wind-blown phytoseiids could provide insight into their dispersal. To this end, we measured body weights and falling speeds of adult females of 13 phytoseiid and one tetranychid mite species. These data were then incorporated into seed dispersal models (Greene and Johnson, Okubo and Levin) and results were compared to mite dispersal distances in wind tunnel, greenhouse and field. Weights of phytoseiid species ranged from 5.25 to 2l.7 μg; starved mites weighed less than fed mites. Geometric diameters ( d _g ) of idiosomas were correlated to weights. Falling speeds for phytoseiids were 0.39–0.73 m/s, and less than for T. urticae (0.79 m/s) in still air. In some species, active mites had slower falling speeds than inactive (anesthetized) mites indicating that behavior may influence falling. Starved mites had significantly slower falling speeds than fed mites and dispersed farther. Equation-based estimates of falling speed were close to measured ones (2–8% deviation) for some species. There were significant relationships between falling speed and body weight and morphological traits. Greene and Johnson's seed dispersal model provided better fits to dispersal of mites in the wind tunnel, greenhouse and field studies than Okubo and Levin's model. Limits of models in describing mite dispersal distance and applications to IPM are discussed.