Your search keyword '"Richner H"' showing total 6 results

1. Parasites suppress immune-enhancing effect of methionine in nestling great tits.

Author

Wegmann M, Voegeli B, and Richner H

Subjects

Acute-Phase Proteins metabolism, Animal Diseases immunology, Animal Diseases parasitology, Animals, Body Weight drug effects, Dietary Supplements, Flea Infestations immunology, Immunity drug effects, Inflammation immunology, Passeriformes growth & development, Passeriformes immunology, Adjuvants, Immunologic pharmacology, Flea Infestations parasitology, Immunity physiology, Methionine pharmacology, Parasites, Passeriformes parasitology, Siphonaptera

Abstract

After birth, an organism needs to invest both in somatic growth and in the development of efficient immune functions to counter the effects of pathogens, and hence an investment trade-off is predicted. To explore this trade-off, we simultaneously exposed nestling great tits (Parus major) to a common ectoparasite, while stimulating immune function. Using a 2 × 2 experimental design, we first infested half of the nests with hen fleas (Ceratophyllus gallinae) on day 3 post-hatch and later, on day 9-13 post-hatch, and then supplemented half of the nestlings within each nest with an immuno-enhancing amino acid (methionine). We then assessed the non-specific immune response by measuring both the inflammatory response to a lipopolysaccharide (LPS) and assessing the levels of acute phase proteins (APP). In parasite-infested nestlings, methionine had a negative effect on body mass close to fledging. Methionine had an immune-enhancing effect in the absence of ectoparasites only. The inflammatory response to LPS was significantly lower in nestlings infested with fleas and was also lower in nestlings supplemented with methionine. These patterns of immune responses suggest an immunosuppressive effect of ectoparasites that could neutralise the immune-enhancing effect of methionine. Our study thus suggests that the trade-off between investment in life history traits and immune function is only partly dependent on available resources, but shows that parasites may influence this trade-off in a more complex way, by also inhibiting important physiological functions.

Published

2015

2. Yolk carotenoids increase fledging success in great tit nestlings.

Author

Marri V and Richner H

Subjects

Animals, Body Size, Feathers, Female, Linear Models, Male, Oxidative Stress, Passeriformes immunology, Phenotype, Egg Yolk chemistry, Lutein chemistry, Passeriformes physiology

Abstract

Avian mothers can influence offspring phenotype through the deposition of different compounds into eggs, such as antibodies, hormones and antioxidants. The concentration of carotenoids in yolk is larger than in maternal plasma, suggesting an important role of these compounds for offspring development. Since carotenoids have to be acquired from the diet, they may be available in limiting amounts to the mothers. Here, we investigated the role of egg carotenoids for offspring growth by experimentally increasing the concentration of yolk lutein, the main carotenoid in great tit (Parus major) yolk. We subsequently measured body condition, oxidative stress, immune response, plumage colouration and fledging success. Lutein increased body mass soon after hatching and fledging success, but did not affect tarsus length, oxidative stress, immune response and plumage colouration. The higher content of yolk lutein could have increased body mass by reducing oxidative stress caused by high metabolic rates of rapidly growing embryos or by promoting cell differentiation and proliferation. The positive effect of lutein on fledging success seems to be mediated by its influence on body mass 3 days post-hatch, since these two traits were correlated. The finding that our treatment did not affect traits measured later in the nestling period, except for fledging success, suggests that yolk lutein has short-term effects that are essential to increase survival until fledging. Our study shows the positive effect of yolk lutein on offspring survival in the great tit, and therefore suggests an important role of carotenoid-mediated maternal effects.

Published

2014

3. The multivariate egg: quantifying within- and among-clutch correlations between maternally derived yolk immunoglobulins and yolk androgens using multivariate mixed models.

Author

Postma E, Siitari H, Schwabl H, Richner H, and Tschirren B

Subjects

Animals, Antigenic Variation immunology, Egg Yolk chemistry, Environment, Female, Host-Parasite Interactions immunology, Male, Multivariate Analysis, Oviparity immunology, Passeriformes parasitology, Siphonaptera physiology, Androgens analysis, Egg Yolk immunology, Immunoglobulin G analysis, Passeriformes immunology

Abstract

Egg components are important mediators of prenatal maternal effects in birds and other oviparous species. Because different egg components can have opposite effects on offspring phenotype, selection is expected to favour their mutual adjustment, resulting in a significant covariation between egg components within and/or among clutches. Here we tested for such correlations between maternally derived yolk immunoglobulins and yolk androgens in great tit (Parus major) eggs using a multivariate mixed-model approach. We found no association between yolk immunoglobulins and yolk androgens within clutches, indicating that within clutches the two egg components are deposited independently. Across clutches, however, there was a significant negative relationship between yolk immunoglobulins and yolk androgens, suggesting that selection has co-adjusted their deposition. Furthermore, an experimental manipulation of ectoparasite load affected patterns of covariance among egg components. Yolk immunoglobulins are known to play an important role in nestling immune defence shortly after hatching, whereas yolk androgens, although having growth-enhancing effects under many environmental conditions, can be immunosuppressive. We therefore speculate that variation in the risk of parasitism may play an important role in shaping optimal egg composition and may lead to the observed pattern of yolk immunoglobulin and yolk androgen deposition across clutches. More generally, our case study exemplifies how multivariate mixed-model methodology presents a flexible tool to not only quantify, but also test patterns of (co)variation across different organisational levels and environments, allowing for powerful hypothesis testing in ecophysiology.

Published

2014

4. Carotenoid-based nestling colouration and parental favouritism in the great tit.

Author

Tschirren B, Fitze PS, and Richner H

Subjects

Animals, Maternal Behavior physiology, Paternal Behavior, Statistics, Nonparametric, Switzerland, Animals, Newborn physiology, Carotenoids metabolism, Nesting Behavior physiology, Passeriformes physiology, Pigmentation physiology

Abstract

While elaborate carotenoid-based traits in adult birds may have evolved as honest signals of individual quality in the context of sexual selection or other social interactions, the function of carotenoid-based colours in juveniles is less well understood. We investigated the hypothesis that carotenoid-based nestling colouration has evolved in response to parental preference of intensely coloured offspring during food provisioning. In a field experiment, we manipulated nestling plumage colouration by a carotenoid-supplementation and analysed the parental food provisioning behaviour before feather appearance and at the end of the nestling stage. Carotenoids per se did not influence the nestling's begging behaviour or parental feeding decisions and we found no evidence that carotenoid-based colouration in nestling great tits has a signalling function in parent-offspring interactions. Parents did not discriminate between intensely coloured and control offspring in their food provisioning and in accordance with this finding intensely coloured nestlings were not heavier or larger at the end of the nestling stage. Alternative explanations for the evolution of carotenoid-based colours in nestling birds are discussed.

Published

2005

5. Carotenoid-based colour expression is determined early in nestling life.

Author

Fitze PS, Tschirren B, and Richner H

Subjects

Animal Feed, Animals, Color, Female, Nesting Behavior, Adaptation, Physiological, Carotenoids administration & dosage, Dietary Supplements, Feathers physiology, Pigmentation, Songbirds physiology

Abstract

Carotenoid-based colours are widespread in animals and are used as signals in intra- and interspecific communication. In nestling birds, the carotenoids used for feather pigmentation may derive via three pathways: (1) via maternal transfer to egg yolk; (2) via paternal feeds early after hatching when females are mainly brooding; or (3) via feeds from both parents later in nestling life. We analysed the relative importance of the proposed carotenoid sources in a field experiment on great tit nestlings ( Parus major). In a within-brood design we supplemented nestlings with carotenoids shortly after hatching, later on in the nestling life, or with a placebo. We show that the carotenoid-based colour expression of nestlings is modified maximally during the first 6 days after hatching. It reveals that the observed variation in carotenoid-based coloration is based only on mechanisms acting during a short period of time in early nestling life. The experiment further suggests that paternally derived carotenoids are the most important determinants of nestling plumage colour.

Published

2003

6. Covariation between egg size and rearing condition determines offspring quality: an experiment with the alpine swift.

Author

Bize P, Roulin A, and Richner H

Abstract

A positive correlation between egg size, early growth and nestling survival has been frequently reported in the ornithological literature. Albeit of interest, most of these studies did not determine whether the relationship between egg size, early growth and nestling survival was confounded by the quality of rearing conditions. However, this is of importance in order to assess the extent to which a life-history trait like egg size causally affects fitness. In a colony of the alpine swift Apus melba, we cross-fostered complete clutches between nests to determine the relative contribution of egg size and rearing condition on nestling growth and survival. In foster nests, nestlings that hatched out of larger eggs were significantly heavier at birth and at the age of 10 days; at 25 days, however, the relationship was no longer significant. The likelihood of a chick surviving from birth to 25 days of age was not correlated with its original egg size, but with the size of the eggs laid by its foster parents. This experiment therefore lends support to the hypothesis that in the alpine swift the relationship between egg size and nestling growth and survival is mainly due to a covariation between egg size and parental care rather than to a direct contribution of egg size.

Published

2002