Variable Food Begging Calls Are Harbingers of Vocal Learning

Vocal learning has evolved in only a few groups of mammals and birds. The developmental and evolutionary origins of vocal learning remain unclear. The imitation of a memorized sound is a clear example of vocal learning, but is that when vocal learning starts? Here we use an ontogenetic approach to examine how vocal learning emerges in a songbird, the chipping sparrow. The first vocalizations of songbirds, food begging calls, were thought to be innate, and vocal learning emerges later during subsong, a behavior reminiscent of infant babbling. Here we report that the food begging calls of male sparrows show several characteristics associated with learned song: male begging calls are highly variable between individuals and are altered by deafening; the production of food begging calls induces c-fos expression in a forebrain motor nucleus, RA, that is involved with the production of learned song. Electrolytic lesions of RA significantly reduce the variability of male calls. The male begging calls are subsequently incorporated into subsong, which in turn transitions into recognizable attempts at vocal imitation. Females do not sing and their begging calls are not affected by deafening or RA lesion. Our results suggest that, in chipping sparrows, intact hearing can influence the quality of male begging calls, auditory-sensitive vocal variability during food begging calls is the first step in a modification of vocal output that eventually culminates with vocal imitation.     

Benefits of Extra Begging Fail to Compensate for Immunological Costs in Southern Shrike (Lanius meridionalis) Nestlings

Theoretical models aimed at explaining the evolution of honest, informative begging signals employed by nestling birds to solicit food from their parents, require that dishonest signalers incur a net viability cost in order to prevent runaway escalation of signal intensity over evolutionary time. Previous attempts to determine such a cost empirically have identified two candidate physiological costs associated with exaggerated begging: a growth and an immunological cost. However, they failed to take into account the fact that those costs are potentially offset by the fact that nestlings that invest more in begging are also likely to obtain more food. In this study, we test experimentally whether a 25% increase in ingested food compensates for growth and immunological costs of extra begging in southern shrike (Lanius meridionalis) nestlings. Three nestmates matched by size were given three treatments: low begging, high begging-same food intake, and high begging-extra food intake. We found that, while a higher food intake did effectively compensate for the growth cost, it failed to compensate for the immunological cost, measured as T-cell mediated immune response against an innocuous mitogen. Thus, we show for the first time that escalated begging has an associated physiological net cost likely to affect nestling survival negatively.     

Chick Begging Calls Reflect Degree of Hunger in Three Auk Species (Charadriiformes: Alcidae)

Begging behaviour is an important element in the parent-offspring conflict; it has been studied in many avian species. However, the majority of the studies have been entirely based on the call counts, and they agreed that vocal activity was a good indicator of chick’s nutritional need and/or condition. Fewer researches were dedicated to the temporal-frequency variables of the begging calls themselves and they showed contrary results. Here begging behaviour in three burrow nested, uniparous species of auks (Alcidae) was studied. These objects provide an opportunity to study the signalling value of begging calls in the absence of important confounding factors such as nestling competition and predation pressure. I recorded calls of individual chicks in two conditions: during natural feeding and after experimental four-hour food deprivation. I found that almost all measured acoustic variables contain information about the chick’s state in all studied species. The hungry chicks produced calls higher in fundamental frequency and power variables and at higher calling rate compared to naturally feeding chicks. The effect of food deprivation on most acoustic variables exceeded both the effects of individuality and species. In all studied species, the frequency variables were stronger affected by hunger than the calling rate and call durations. I suppose that such strong change of acoustic variables after food deprivation can be explained by absence of vocal individual identification in these birds. As parents do not need to check individuality of the chick in the burrow, which they find visually during the day time, the chicks could use all of the acoustic variables to communicate about their nutritional needs.     

Differential Begging and Locomotory Behaviour by Early and Late Hatched Nestlings Affecting the Distribution of Food in Asynchronously Hatched Broods of Altricial Birds

Distribution of food to early and late hatched nestlings was studied in asynchronously hatched broods of the great tit Parus major, the blackbird Turdus merula, and the fieldfare T. pilaris. Food distribution is related to the locomotory and begging behaviour and positions in the nest of these nestlings. Late hatched (small) nestlings were found to beg more often per feed than bigger nestlings and move more towards favoured positions in the nest to counteract selective feeding of bigger young. The functional significance of these differences in the behaviour of early and late hatched nestlings are discussed. It is argued that they are adaptive by 1) ensuring that each nestling survives when food supplies are ample, and 2) by mediating an optimal brood reduction when food is insufficient to raise the entire brood. The roles of asynchronous hatching, and selective feeding which follows from differential behaviour of early and late hatched young are discussed in relation to food conditions during the breeding season.     

Not for Parents Only: Begging Calls Allow Nest‐Mate Discrimination in Juvenile Zebra Finches

The benefits of recognition of family members may range from inbreeding avoidance to cooperative and coordinated behaviors within the family group. In birds, recognition of family members has almost exclusively been studied between parents and offspring or within cooperatively breeding societies. Yet, recognition of nest‐mates could be of special importance in recently fledged birds of colonial species by helping in locating the nest, maintaining family group cohesion, or allowing detection of feeding opportunities by recognizing the begging calls nest‐mates produced on the return of a parent. Here we study nest‐mate discrimination based on begging calls in fledglings of domesticated zebra finches (Taeniopygia guttata), a gregarious songbird living in loose colonies in which juveniles may gather in crèches and are fed by parents up to 20 d after fledging. Using playback tests, we show that fledglings called more and spent more time near the loudspeaker in response to the begging calls of their nest‐mates than to the calls of other familiar individuals. Because each fledgling was exposed to the repeated association of the begging calls of its nest‐mates and the subsequent feeding of its parents, this preferential response to the nest‐mates' calls could be a conditioned response to the food reward. Whereas fledglings answered more to male fledgling calls than to female fledgling calls, response to playback was influenced neither by the sex of the subject nor by its brood size. Discriminant function analysis based on acoustic parameters showed that begging calls carried an individual signature as well as a brood signature which might account for such nest‐mate discrimination. Begging signals are major study systems of the evolution of communication in the face of conflicts of interest between signalers and receivers. Our results suggest that eavesdropping and communication networks may be other informative frameworks to understand the design of offspring solicitation signals.     

Structural Variations in the Begging Calls of Nestling Magpies Pica pica and their Role in the Development of Adult Voice

Like most corvids, adult magpies (Pica pica) have harsh vocal repertoires characterized by a wide distribution of energy over the frequency scale. Shortly after hatching, begging calls of magpie nestlings have a tonal quality but become increasingly noisier as they develop. The appearance of harsh structures in the calls is closely related to a process of frequency modulation which ends at about 16–18 days. At this age, nestlings suddenly develop genuine harsh calls, typical of fledglings and adult birds. During development, similarities can be observed between frequency modulation and noise production, suggesting that nestlings acquire the ability to produce adult harsh vocalizations by modulating their begging calls. This hypothesis does not explain, however, why genuine harsh calls develop without transitional forms being evident in the preceding begging calls. Also, intra- and interspecific differences in modulation rates do not cause differences in noise production in the way that this hypothesis would at first suggest. Frequency modulation and noise production do not seem to be involved in the ontogeny of the adult voice. It is suggested that both features contribute to call degradation in the environment, in order to compensate for the increasing risks of nests being detected by predators due to the more detectable calls of older nestlings.     

中杜鹃寄生繁殖及雏鸟生长一例

2002年6月,在甘肃省莲花山自然保护区观察到中杜鹃在淡眉柳莺巢中寄生繁殖,本文从体重、羽毛特征、跗蟅量度和嘴裂斑特征等方面说明了中杜鹃雏鸟的鉴别特征,并描述了雏鸟的行为和生长情况。     

Sexual Selection in the Loud Calls of Male Primates: Signal Content and Function

Researchers have used sexual selection theory and hypotheses based on intersexual mate choice and intrasexual mate competition to explain the role of spontaneous long-distance vocalizations emitted by adult male primates, relying on the tacit assumption that assessment or identity cues are encoded in the vocalizations. I review the published literature and aim to substantiate a relationship between sexual selection and long-distance vocal communication in primates. First, I review findings from nonprimate taxa to determine the relative importance of inter- and intrasexual selection and to provide a background for examining primates. Next, I describe several hypotheses for signal content and function in adult male loud calls. Then, I examine the available data across Primates for evidence to support or to refute these hypotheses and to determine if they meet proposed criteria for demonstrating sexual selection [Snowdon, C. T. (2004). Sexual Selection in Primates: New and Comparative Perspectives]. Signal content refers to patterns of acoustic features within vocalizations from which listeners might extract cues or information about the signaler. I interpret signal function, in turn, from behavioral responses of receivers and assume it has ultimate effects on the evolution and design of acoustic signals if direct fitness consequences exist. After the general review across primates, I propose orangutans as a candidate species for further evaluation of sexual selection in vocal communication. The available evidence corroborates a demonstrable relationship between sexual selection and adult male loud calls based on individual recognition, but it is necessary to obtain additional data to affirm a direct benefit to reproductive success.     

Integrating Ontogenetic Shift,Growth and Mortality to Determine a Species' Ecological Role from Isotopic Signatures

Understanding species linkages and energy transfer is a basic goal underlying any attempt at ecosystem analysis. Although the first food-web studies were based on gut contents of captured specimens, the assessment of stable isotopes, mainly δ¹³C and δ¹⁵N, has become a standard methodology for wide-range analyses in the last 30 years. Stable isotopes provide information on the trophic level of species, food-web length, and origin of organic matter ingested by consumers. In this study, we analyzed the ontogenetic variability of δ¹³C and δ¹⁵N obtained from samples of three Neotropical fish species: silver sardine (Lycengraulis grossidens, n=46), white lambari (Cyanocharax alburnus, n= 26), and the red-tail lambari (Astyanax fasciatus, n=23) in Pinguela Lagoon, southern Brazil. We developed a new metric, called the Weighted Isotopic Signature (φ ¹⁵N or φ ¹³C, ‰), that incorporates ontogenetic variability, body growth, and natural mortality into a single number.     

Migration and moult in Pallas's Grasshopper Warbler

From 1987 to 1989, 11 passerine species caught during their autumn migration on the Mettnau peninsula at Lake Constance (SW Germany) were examined for weight, visible fat deposition and actual fat load using a Soxhlet extraction. From the amount of fat deposited, mean theoretical flight ranges were calculated. Visible stored fat is only deposited in large quantities towards the end of the migration period. Before migration, the mean fat content stored in relation to fat-free dry weight ranges from 9–12%, whereas during migration it ranges from 13–30%. There is no difference between long- and short-distance migrants. A weight change cannot be accounted for exclusively by fat deposition. The mean weight of first-captures was low in all species. Only 5 of the 11 species studied gained weight more or less extensively during the migration period. All species showed an increase in fat deposition during migration. Since 1972, a marked annual decrease in average body weight during migration was found in the Reed Warbler. On average, water content in relation to fat-free dry weight is between 208 and 254% during migration and between 216 and 270% during the premigration period. For the species studied at Mettnau, mean theoretical flight range is 49 to 85 km during the pre-migration period and 84 to 216 km during migration (n = 211 birds). An average flight range of up to 100 km implies short migrational ‘legs’ from Lake Constance to the nearby Swiss midlands, which is probable if only parts of the small fat reserves are utilized during their flight. Because birds have to increase their initial fat stores considerably to reach and cross the Mediterranean, a low fat deposition rate may lead to problems before they reach their winter quarters. Short flight ranges are discussed in connection with trends of decreasing populations in central Europe.     

The Irreversible C3 to CAM Shift in Well-watered and Salt-stressed Plants of Mesembryanthemum crystallinum is under Strict Ontogenetic Control

The shift from C₃ to CAM was investigated as a function of both leaf and plant age in well-watered and salt-stressed (300 mM NaCl solution) plants of Mesembryanthemum crystallinum. Initiation of a night-time accumulation of malic acid, the decisive criterion of CAM, was followed in plants that were continuously stressed at different points in their life cycle. The deinducibility of CAM was examined after the release from stress by extensively rinsing the potting soil with de-mineralized water. Our results show that in M. crystallinum CAM is under strict developmental control, since CAM appeared only when a certain stage of development of the whole plant was reached. CAM was not present in any plant before this threshold, which was the same in salt-stressed as well as in well-watered plants. The metabolic shift coincided with the change from the seedling to the juvenile growth phase, and not with that from vegetative to reproductive growth, represented by the start of branching. The latter is timed to the end of extension growth. In well-watered plants, after this decisive point in development, a weak nighttime accumulation of malic acid could be measured (? 0.05 mol kg_DW^?1) in the oldest, mature leaves but not in young, developing ones. This “CAM capacity” gradually increased up to 0.2 mol kg_DE^?1 with further plant ageing. Leaf senescence, characterized by wilting and yellowing, diminished the CAM activity. In mature leaves salt stress drastically enhanced the magnitude of diurnal fluctuation in malic acid content. Removal of salt stress did not deinduce CAM activity, but diminished the amplitude of malic acid oscillations to some extent in those plants which had been stressed from early in their life cycle. In these plants, salt stress delayed plant development and growth thus retarding the life cycle. Well-watered plants, for example, branched about three weeks earlier than those that had been stressed continuously from one week after germination. After removal of stress a quasi-preserved earlier developmental stage in relation to the control plants determined the weaker CAM expression.     

High prevalence of haemosporidians in Reed Warbler Acrocephalus scirpaceus and Sedge Warbler Acrocephalus schoenobaenus in Spain

Apicomplexan blood parasites (genera Haemoproteus, Plasmodium and Leucocytozoon) prevalence in two related species (Reed Warbler Acrocephalus scirpaceus and Sedge Warbler A. schoenobaenus) was studied in 2006 at the Natural Reserve of Castronu?o-Vega del Duero, Western Spain, a stopover area during the autumn migration. A fragment of the mitochondrial cytochrome b gene of the parasites was amplified, using a nested PCR assay, from avian blood samples. High prevalence of malaria parasites was found in both species, 84.6% in Reed Warbler and 71.8% in Sedge Warbler, and the degree of infection reach 100% of the population that breed at the Reserve, suggesting good conditions for the development of dipteran vectors in this area. By sequencing 464 nucleotides of the obtained fragments, we found four different mitochondrial haplotypes of Haemoproteus or Plasmodium in the two species analysed. Leucocytozoon infection was not detected, in contrast to the high prevalence of this parasite in other avian species in Spain, probably because the water course studied is not an adequate habitat for its vectors.     

Ontogenetic Shift in Efficacy of Antipredator Mechanisms in a Top Aquatic Predator,Anax junius (Odonata: Aeshnidae)

The ability of prey to escape predation often lies in the occurrence and efficacy of their predator avoidance and antipredator behaviors, which are often coupled with specialized morphology. How the use and efficacy of these behaviors change throughout ontogeny may be indicative of the vulnerability and ecological roles these animals experience throughout their lives. We examined the antipredator behavior of a large dragonfly nymph, Anax junius, from a historically fishless pond where these animals have traditionally been classified as top predators. These dragonfly nymphs displayed a series of distinct aggressive antipredator behaviors when grasped that involved stabbing with lateral and posterior spines and seizing with labial hooks. Larger (older) nymphs displayed these aggressive behaviors significantly more than smaller (younger) animals in simulated predation trials. During encounters with live larval salamander predators (Ambystoma tigrinum), all large nymphs, but only 12.5% of small nymphs successfully escaped predation attempts by the amphibians through the use of antipredator behavior. Large nymphs were also significantly more active than smaller nymphs in the presence of salamander larvae. Despite often being considered top predators in fishless ponds, our study demonstrates that their true role is more complex, depending on ontogeny and body size, and that effective antipredator behavior is likely necessary for survival in these systems.     

Begging and the risk of predation in nestling birds

Theoretical models of the evolution of begging in nestling passerinesassume that begging is costly, either energetically or in termsof predation. However, few empirical measures of these costsexist. We examined whether nestling begging calls could attractpredators to nests by comparing predation rates at artificialnests with and without playbacks of tree swallow begging calls.Nests were baited with quail eggs and placed in pairs on theground or in modified nest-boxes. Nests with playbacks of beggingcalls were depredated before control nests significantly moreoften in both the ground and nest-box trials, suggesting thatpredators may use begging calls to locate nests. These resultssuggest that the risk of nest predation may be increased becauseof calling by nestlings and provide further support for theassumption that conspicuous begging is costly in terms of predation     

Ontogenetic Changes of Photosynthetic and Dark Respiration Rates in Relation to Nitrogen Content in Individual Leaves of Field Crops

Ontogenetic changes of rates of photon-saturated photosynthesis (P _sat) and dark respiration (R _D) of individual leaves were examined in relation to nitrogen content (Nc) in rice, winter wheat, maize, soybean, field bean, tomato, potato, and beet. P _sat was positively correlated with Nc as follows: P _sat = CfNc + P _sat0, where Cf and P _sat0 are coefficients. The value of Cf was high in maize, medium in rice and soybean, and low in field bean, potato, tomato, and beet, of which difference was not explained by ribulose-1,5-bisphoshate carboxylase/oxygenase (RuBPCO) content. R _D was explained by P _sat and/or Nc, however, two models must be applied according to plant species. R _D related linearly with P _sat and Nc in maize, field bean, and potato as follows: R _D = a P _sat + b, or R _D = aNc + b, where a, a, b and b are coefficients. In other species, the R _D/P _sat ratio increased exponentially with the decrease of Nc as follows: R _D/P _sat = a exp(b Nc), where a and b are coefficients. Therefore, R _D in these crops was expressed as follows: In(R _D) = ln(a P _sat) + b Nc, indicating that R _D in these crops was regulated by both P _sat and Nc.     

Ontogenetic symmetry and asymmetry in energetics

Body size ( $\equiv $ biomass) is the dominant determinant of population dynamical processes such as giving birth or dying in almost all species, with often drastically different behaviour occurring in different parts of the growth trajectory, while the latter is largely determined by food availability at the different life stages. This leads to the question under what conditions unstructured population models, formulated in terms of total population biomass, still do a fair job. To contribute to answering this question we first analyze the conditions under which a size-structured model collapses to a dynamically equivalent unstructured one in terms of total biomass. The only biologically meaningful case where this occurs is when body size does not affect any of the population dynamic processes, this is the case if and only if the mass-specific ingestion rate, the mass-specific biomass production and the mortality rate of the individuals are independent of size, a condition to which we refer as “ontogenetic symmetry”. Intriguingly, under ontogenetic symmetry the equilibrium biomass-body size spectrum is proportional to 1/size, a form that has been conjectured for marine size spectra and subsequently has been used as prior assumption in theoretical papers dealing with the latter. As a next step we consider an archetypical class of models in which reproduction takes over from growth upon reaching an adult body size, in order to determine how quickly discrepancies from ontogenetic symmetry lead to relevant novel population dynamical phenomena. The phenomena considered are biomass overcompensation, when additional imposed mortality leads, rather unexpectedly, to an increase in the equilibrium biomass of either the juveniles or the adults (a phenomenon with potentially big consequences for predators of the species), and the occurrence of two types of size-structure driven oscillations, juvenile-driven cycles with separated extended cohorts, and adult-driven cycles in which periodically a front of relatively steeply decreasing frequencies moves up the size distribution. A small discrepancy from symmetry can already lead to biomass overcompensation; size-structure driven cycles only occur for somewhat larger discrepancies.     

Changes in Cell Size and DNA Content in Sulfolobus Cultures during Dilution and Temperature Shift Experiments

Stationary-phase cultures of different hyperthermophilic species of the archaeal genus Sulfolobus were diluted into fresh growth medium and analyzed by flow cytometry and phase-fluorescence microscopy. After dilution, cellular growth started rapidly but no nucleoid partition, cell division, or chromosome replication took place until the cells had been increasing in size for several hours. Initiation of chromosome replication required that the cells first go through partition and cell division, revealing a strong interdependence between these key cell cycle events. The time points at which nucleoid partition, division, and replication occurred after the dilution were used to estimate the relative lengths of the cell cycle periods. When exponentially growing cultures were diluted into fresh growth medium, there was an unexpected transient inhibition of growth and cell division, showing that the cultures did not maintain balanced growth. Furthermore, when cultures growing at 79 degrees C were shifted to room temperature or to ice-water baths, the cells were found to "freeze" in mid-growth. After a shift back to 79 degrees C, growth, replication, and division rapidly resumed and the mode and kinetics of the resumption differed depending upon the nature and length of the shifts. Dilution of stationary-phase cultures provides a simple protocol for the generation of partially synchronized populations that may be used to study cell cycle-specific events.     

Begging and bleating: the evolution of parent-offspring signalling

The evolution of biological signalling in the face of evolutionary conflicts of interest is an active area of evolutionary ecology, and one to which Maynard Smith has made important contributions. We explore the major theoretical challenges in the field, concentrating largely on how offspring signal to their parents when there is the potential for parent-offspring conflict. Costly offspring solicitation (begging etc.) has been interpreted in terms of a Zahavi Grafen honest handicap signal, but this has been challenged on the grounds of' the costs of signalling. We review this controversy and also explore the issue of pooling versus separating signalling equilibrium. An alternative explanation for costly begging is that it is due to sibling competition, and we discuss the relationship between these ideas and signalling models in families with more than one offspring. Finally we consider signal uncertainty, how signalling models can be made dynamic, and briefly how they may be tested experimentally.     

Ontogenetic study of thermoregulation in birds

We reviewed our ontogenetic studies of thermoregulatory capacity in avian embryos in relation to metabolic responses to egg cooling.Basic understanding of abrupt egg cooling and quasi-equilibrium state of cooling was discussed together with egg's thermal conductance and heat production.Two cooling tests, which were designed to minimize the rate of heat loss during cooling, were conducted to investigate a feeble compensatory metabolic response to cooling in precocial and altricial embryos, and models for early development of homeothermy in birds were suggested.Instantaneous heart rate (IHR) response to cooling was measured in chick embryos. The baseline of IHR rised and became oscillating. HR oscillation may be a phenomenon related to thermoregulation, which needs to be studied.