Search

Your search keyword '"Schmoll, Tim"' showing total 197 results
Start Over Author "Schmoll, Tim"
197 results on '"Schmoll, Tim"'

11. Same data, different analysts: variation in effect sizes due to analytical decisions in ecology and evolutionary biology

Author

Gould, Elliot, primary, Fraser, Hannah, additional, Parker, Timothy, additional, Nakagawa, Shinichi, additional, Griffith, Simon, additional, Vesk, Peter, additional, Fidler, Fiona, additional, Abbey-Lee, Robin, additional, Abbott, Jessica, additional, Aguirre, Luis, additional, Alcaraz, Carles, additional, Altschul, Drew, additional, Arekar, Kunal, additional, Atkins, Jeff, additional, Atkinson, Joe, additional, Barrett, Meghan, additional, Bell, Kristian, additional, Bello, Suleiman, additional, Berauer, Bernd, additional, Bertram, Michael, additional, Billman, Peter, additional, Blake, Charlie, additional, Blake, Shannon, additional, Bliard, Louis, additional, Bonisoli-Alquati, Andrea, additional, Bonnet, Timothée, additional, Bordes, Camille, additional, Bose, Aneesh, additional, Botterill-James, Thomas, additional, Boyd, Melissa, additional, Boyle, Sarah, additional, Bradfer-Lawrence, Tom, additional, Brand, Jack, additional, Brengdahl, Martin, additional, Bulla, Martin, additional, Bussière, Luc, additional, Camerlenghi, Ettore, additional, Campbell, Sara, additional, Campos, Leonardo, additional, Caravaggi, Anthony, additional, Cardoso, Pedro, additional, Carroll, Charles, additional, Catanach, Therese, additional, Chen, Xuan, additional, Chik, Heung Ying Janet, additional, Choy, Emily, additional, Christie, Alec, additional, Chuang, Angela, additional, Chunco, Amanda, additional, Clark, Bethany, additional, Cox, Murray, additional, Cressman, Kimberly, additional, Crouch, Connor, additional, D'Amelio, Pietro, additional, de Sousa, Alexandra, additional, Döbert, Timm, additional, Dobler, Ralph, additional, Dobson, Adam, additional, Doherty, Tim, additional, Drobniak, Szymon, additional, Duffy, Alexandra, additional, Dunn, Robert, additional, Dunning, Jamie, additional, Eberhart-Hertel, Luke, additional, Elmore, Jared, additional, Elsherif, Mahmoud, additional, English, Holly, additional, Ensminger, David, additional, Ernst, Ulrich, additional, Ferguson, Stephen, additional, Ferreira-Arruda, Thalita, additional, Fieberg, John, additional, Finch, Elizabeth, additional, Fiorenza, Evan, additional, Fisher, David, additional, Forstmeier, Wolfgang, additional, Fourcade, Yoan, additional, Francesca Santostefano, Francesca, additional, Frank, Graham, additional, Freund, Cathryn, additional, Gandy, Sara, additional, Gannon, Dustin, additional, García-Cervigón, Ana, additional, Géron, Charly, additional, Gilles, Marc, additional, Girndt, Antje, additional, Gliksman, Daniel, additional, Goldspiel, Harrison, additional, Gomes, Dylan, additional, Goslee, Sarah, additional, Gosnell, J., additional, Gratton, Paolo, additional, Grebe, Nicholas, additional, Greenler, Skye, additional, Griffith, Daniel, additional, Griffith, Frances, additional, Grossman, Jake, additional, Güncan, Ali, additional, Haesen, Stef, additional, Hagan, James, additional, Harrison, Natasha, additional, Hasnain, Sarah, additional, Havird, Justin, additional, Heaton, Andrew, additional, Hsu, Bin-Yan, additional, Iranzo, Esperanza, additional, Iverson, Erik, additional, Jimoh, Saheed, additional, Johnson, Douglas, additional, Johnsson, Martin, additional, Jorna, Jesse, additional, Jucker, Tommaso, additional, Jung, Martin, additional, Kačergytė, Ineta, additional, Ke, Alison, additional, Kelly, Clint, additional, Keogan, Katharine, additional, Keppeler, Friedrich, additional, Killion, Alexander, additional, Kim, Dongmin, additional, Kochan, David, additional, Korsten, Peter, additional, Kothari, Shan, additional, Kuppler, Jonas, additional, Kusch, Jillian, additional, Lagisz, Malgorzata, additional, Larkin, Daniel, additional, Larson, Courtney, additional, Lauck, Katherine, additional, Lauterbur, M., additional, Law, Alan, additional, Léandri-Breton, Don-Jean, additional, Lievens, Eva, additional, Lima, Daniela, additional, Lindsay, Shane, additional, Macphie, Kirsty, additional, Mair, Magdalena, additional, Malm, Lisa, additional, Mammola, Stefano, additional, Manhart, Michael, additional, Mäntylä, Elina, additional, Marchand, Philippe, additional, Marshall, Benjamin, additional, Martin, Dominic, additional, Martin, Jake, additional, Martin, Charles, additional, Martinig, April, additional, McCallum, Erin, additional, McNew, Sabrina, additional, Meiners, Scott, additional, Michelangeli, Marcus, additional, Moiron, Maria, additional, Moreira, Bruno, additional, Mortensen, Jennifer, additional, Mos, Benjamin, additional, Muraina, Taofeek, additional, Nelli, Luca, additional, Nilsonne, Gustav, additional, Nolazco, Sergio, additional, Nooten, Sabine, additional, Novotny, Jessie, additional, Olin, Agnes, additional, Organ, Chris, additional, Ostevik, Kate, additional, Palacio, Facundo, additional, Paquet, Matthieu, additional, Pascall, David, additional, Pasquarella, Valerie, additional, Payo-Payo, Ana, additional, Pedersen, Karen, additional, Perez, Grégoire, additional, Perry, Kayla, additional, Pottier, Patrice, additional, Proulx, Michael, additional, Proulx, Raphaël, additional, Pruett, Jessica, additional, Ramananjato, Veronarindra, additional, Randimbiarison, Finaritra, additional, Razafindratsima, Onja, additional, Rennison, Diana, additional, Riva, Federico, additional, Riyahi, Sepand, additional, Roast, Michael, additional, Rocha, Felipe, additional, Roche, Dominique, additional, Román-Palacios, Cristian, additional, Rosenberg, Michael, additional, Ross, Jessica, additional, Rowland, Freya, additional, Rugemalila, Deusdedith, additional, Russell, Avery, additional, Ruuskanen, Suvi, additional, Saccone, Patrick, additional, Sadeh, Asaf, additional, Salazar, Stephen, additional, sales, kris, additional, Salmón, Pablo, additional, Sanchez-Tojar, Alfredo, additional, Santos, Leticia, additional, Schilling, Hayden, additional, Schmidt, Marcus, additional, Schmoll, Tim, additional, Schneider, Adam, additional, Schrock, Allie, additional, Schroeder, Julia, additional, Schtickzelle, Nicolas, additional, Schultz, Nick, additional, Scott, Drew, additional, Shapiro, Julie, additional, Sharma, Nitika, additional, Shearer, Caroline, additional, Sitvarin, Michael, additional, Skupien, Fabrício, additional, Slinn, Heather, additional, Smith, Jeremy, additional, Smith, Grania, additional, Sollmann, Rahel, additional, Stack Whitney, Kaitlin, additional, Still, Shannon, additional, Stuber, Erica, additional, Sutton, Guy, additional, Swallow, Ben, additional, Taff, Conor, additional, Takola, Elina, additional, Tanentzap, Andrew, additional, Thawley, Christopher, additional, Tortorelli, Claire, additional, Trlica, Andrew, additional, Turnell, Biz, additional, Urban, Lara, additional, Van de Vondel, Stijn, additional, van Oordt, Francis, additional, Vanderwel, Mark, additional, Vanderwel, K., additional, Vanderwolf, Karen, additional, Verrelli, Brian, additional, Vieira, Marcus, additional, Vollering, Julien, additional, Walker, Xanthe, additional, Walter, Jonathan, additional, Waryszak, Pawel, additional, Weaver, Ryan, additional, Weller, Daniel, additional, Whelan, Shannon, additional, White, Rachel, additional, Wolfson, David, additional, Wood, Andrew, additional, Yanco, Scott, additional, Yen, Jian, additional, Youngflesh, Casey, additional, Zilio, Giacomo, additional, Zimmer, Cédric, additional, Zitomer, Rachel, additional, Villamil, Nora, additional, and Tompkins, Emily, additional

Published
2023
Full Text
View/download PDF

18. How Individualized Niches Arise: Defining Mechanisms of Niche Construction, Niche Choice, and Niche Conformance

Author

Kaiser, Marie, Gadau, Jürgen, Ernst, Uli, Kurtz, Joachim, Trappes, Rose, Schielzeth, Holger, Krohs, Ulrich, Schmoll, Tim, van Benthem, Koen, Nematipour, Behzad, Korsten, Peter, Takola, Elina, and Van Benthem group

Subjects
SELECTION, habitat choice, CONSEQUENCES, fungi, RETHINK, EVOLUTIONARY-THEORY NEED, EXTENDED PHENOTYPE, equipment and supplies, BEHAVIORAL SYNDROMES, ECOLOGY, bepress|Life Sciences|Ecology and Evolutionary Biology, complex mixtures, phenotypic plasticity, bepress|Life Sciences, DISPERSAL, individualized niche, bacteria, General Agricultural and Biological Sciences, individual differences, SPECIALIZATION, niche construction
Abstract

The debate between the extended evolutionary synthesis (EES) and the modern synthesis (MS) partly relies on different interpretations of niche construction. We dissect the umbrella term of niche construction into three separate mechanisms: niche construction (taken in a narrow sense), in which individuals make changes to the environment; niche choice, in which individuals select an environment; and niche conformance, in which individuals change their phenotypes. Each of these individual-level mechanisms affects an individual’s phenotype-environment match, its fitness, and its individualized niche, defined in terms of the environmental conditions under which an individual can survive and reproduce. Our conceptual framework distinguishes several ways in which individuals alter the selective regimes that they and other organisms experience. It also places clear emphasis on individual differences and construes niche construction and other processes as evolved mechanisms. We therefore argue that our framework helps to resolve the tensions between EES and MS.

Published
2022
Full Text
View/download PDF

19. Preen oil composition of Pied Flycatchers is similar between partners but differs between sexes and breeding stages.

Author

Gilles, Marc, Fokkema, Rienk W., Korsten, Peter, Caspers, Barbara A., and Schmoll, Tim

Subjects
BODY odor, FLYCATCHERS, SEXUAL selection, FEMALES, OLFACTORY receptors
Abstract

Preen oil, the secretion of the uropygial gland, may be an important source of body odour in birds. By characterizing the chemical composition of preen oil, we can describe the olfactory phenotypes of birds and investigate whether odours could have a function in sexual signalling or other chemical communication. Here we analysed the preen oil of a wild passerine, the European Pied Flycatcher Ficedula hypoleuca, to find out whether it holds socially relevant information. We sampled both the female and male of breeding pairs during nestling rearing to test for sex differences and within‐pair similarity. We additionally sampled the females during incubation to test for changes across breeding stages and for individual repeatability of chemical profiles. Pair mates had similar chemical profiles in comparison with other breeding adults. Furthermore, we found evidence for sex differences and for changes across breeding stages. Notably, the preen oil of females was more diverse and more volatile than that of males, and the preen oil secreted by females during incubation was more volatile than that secreted during nestling rearing. However, we found no evidence for individual repeatability of chemical profiles across breeding stages in females. Our results point towards a function of preen oil in sexual signalling, although other functions should not be excluded. Our study is a first step towards understanding the role of odours in the social life of an important avian model species used in the study of mate choice and sexual selection. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

21. Preen oil composition of Pied Flycatchers is similar between partners but differs between sexes and breeding stages

Author

Gilles, Marc, Fokkema, Rienk, Korsten, Peter, Caspers, Barbara, and Schmoll, Tim

Abstract

Preen oil, the secretion of the uropygial gland, may be an important source of body odour in birds. By characterizing the chemical composition of preen oil, we can describe the olfactory phenotypes of birds and investigate whether odours could have a function in sexual signalling or other chemical communication. Here we analysed the preen oil of a wild passerine, the European Pied Flycatcher Ficedula hypoleuca, to find out whether it holds socially-relevant information. We sampled both the female and male of breeding pairs during nestling rearing to test for sex differences and within-pair similarity. We additionally sampled the females during incubation to test for changes across breeding stages and for individual repeatability of chemical profiles. Pair mates had similar chemical profiles in comparison to other breeding adults. Furthermore, we found evidence for sex differences and for changes across breeding stages. Notably, the preen oil of females was more diverse and more volatile than that of males, and the preen oil secreted by females during incubation was more volatile than that secreted during nestling rearing. However, we found no evidence for individual repeatability of chemical profiles across breeding stages in females. Our results point towards a function of preen oil in sexual signalling, although other functions should not be excluded. Our study is a first step towards understanding the role of odours in the social life of an important avian model species used in the study of mate choice and sexual selection.

Published
2023

22. Variation in preen oil composition in a wild population of Pied Flycatchers: effects of sex, breeding stage, life stage, individual and family identity

Author

Gilles, Marc, Caspers, Barbara, Schmoll, Tim, and Jeanjean, Laurence

Subjects
sex differences, scent, chemical profile, Ecology and Evolutionary Biology, Life Sciences, Behavior and Ethology, individual signature, uropygial gland secretion, bird olfaction, Ficedula hypoleuca, Ornithology, FOS: Biological sciences, Animal Sciences, bird odor, seasonal changes, Biology, Zoology, passerine
Abstract

It is now well established that birds use their sense of smell to interact with their environment. For example, birds use olfaction to locate food (Wikelski et al. 2021, Cunningham et al. 2009), for predator detection (Amo et al. 2008, 2011) or navigation (Gagliardo et al. 2013). Birds can also use olfaction in social interactions with conspecifics, for example for species or kin recognition (Hagelin et al. 2003, Caspers et al. 2017), but it is still under debate how common and important this is. If birds use odors to communicate, there should be variation among individuals (to communicate information such as sex, kinship or individual identity) and/or seasonal variation within individuals (to communicate information such as reproductive state) in their body odor. Indeed seasonal changes in preen oil have been found in almost all studied bird species (Grieves et al. 2022). In addition to the possibility that seasonal changes are used for intraspecific communication (mate choice, parent-offspring communication), there is evidence, particularly from ground-nesting birds, that seasonal changes in preen oil limits predation at the nest via olfactory crypsis (Reneerkens et al. 2005, Grieves et al. 2022). Another hypothesis for the seasonal change in preen oil composition is the prevention of bacterial infections via antimicrobial activity, especially during incubation (Martín-Vivaldi et al. 2010). In this study, we will investigate the variation in preen oil composition (a proxy of body odor in birds) in a wild passerine, the Pied Flycatcher (Ficedula hypoleuca). We sampled preen oil from adults breeding in nestboxes during incubation and nestling-rearing, and from nestlings, and we analyzed its chemical composition using gas chromatography-mass spectrometry (GC-MS). We will test whether preen oil in this species contains chemical information about sex, breeding stage, life stage, individual identity and family groups, that could be used in social interactions or may reflect a protective function (olfactory crypsis, antimicrobial activity). This study is a replication of the pilot study presented in Gilles et al. 2023 (revision under review). We aim to reproduce the findings from this study using a larger sample size. This pre-registration is not pertaining to the field work (carried out in spring 2020) or the chemical analysis (carried out in 2022), but to the statistical analysis. No data were visualized or analyzed in any way before the upload of this pre-registration.

Published
2023
Full Text
View/download PDF

24. Male social niche conformance in zebra finches

Author

Lilie, Navina, Riyahi, Sepand, Korsten, Peter, and Schmoll, Tim

Subjects
Male-male competition, Ecology, Sexual selection, Evolution, Extra-pair mating, FOS: Biological sciences, Sperm competition, Behaviour, Testosterone, Gene expression
Published
2022
Full Text
View/download PDF

25. Male social niche conformance: a trade-off between extra-pair mating and paternal care in the zebra finch (Taeniopygia guttata)?

Author

Lilie, Navina, Riyahi, Sepand, Schmoll, Tim, and Korsten, Peter

Subjects
Ecology, Evolution, Physiology, Sperm competition, Ecology and Evolutionary Biology, Life Sciences, Parental care, Behavior and Ethology, Endocrinology, Male-male competition, Sexual selection, Extra-pair mating, FOS: Biological sciences, Animal Sciences, Behaviour, Testosterone, Corticosterone, Biology, Zoology
Abstract

The level of male-male competition is an important dimension of the male social niche. When males provide parental care, they potentially face a trade-off between obtaining additional fertilizations and providing care to their offspring. In this study, we will investigate how males plastically adjust their reproductive phenotype, specifically their provision of parental care, depending on the opportunity for extra-pair mating and/or level of sperm competition risk. To this aim, we will experimentally manipulate the social environment in which males are breeding. The study complements a previous, preregistered experiment focusing on male phenotypic adjustment of competitive traits in response to different levels of sperm competition risk (see Lilie, N. D., Riyahi, S., Korsten, P., & Schmoll, T., 2019, July 11. 'Male social niche conformance in zebra finches'. Retrieved from osf.io/84z5r). In the current preregistered study, we will expose males of a well-characterized model species, the socially monogamous zebra finch, to two social treatment levels: double-pair housing, inducing an opportunity for extra-pair mating and elevated sperm competition risk, versus single-pair housing with no opportunity for extra-pair mating or sperm competition risk. We will measure the male phenotypic responses to these different social treatments focusing on their contributions to parental care and their plasma levels of the hormones testosterone and corticosterone. In addition, we will quantify the effects of the social treatment and its resulting male responses on offspring growth and survival.

Published
2022
Full Text
View/download PDF

29. How Individualized Niches Arise: Defining Mechanisms of Niche Construction, Niche Choice, and Niche Conformance

Author

Trappes, Rose, primary, Nematipour, Behzad, additional, Kaiser, Marie I, additional, Krohs, Ulrich, additional, van Benthem, Koen J, additional, Ernst, Ulrich R, additional, Gadau, Jürgen, additional, Korsten, Peter, additional, Kurtz, Joachim, additional, Schielzeth, Holger, additional, Schmoll, Tim, additional, and Takola, Elina, additional

Published
2022
Full Text
View/download PDF

32. Individualised niches: an integrative conceptual framework across behaviour, ecology, and evolution

Author

Krüger, Oliver, Anaya-Rojas, Jaime, Caspers, Barbara, Chakarov, Nayden, Elliott-Graves, Alkistis, Fricke, Claudia, Gadau, Jürgen, Goßmann, Toni, Hoffman, Joseph, Kaiser, Marie Isabel, Kaiser, Sylvia, Korsten, Peter, Krohs, Ulrich, Kurtz, Joachim, Langrock, Roland, Müller, Caroline, Peuß, Robert, Reinhold, Klaus, Richter, Helene, Sachser, Norbert, Schielzeth, Holger, Schmoll, Tim, Stanewsky, Ralf, Szekely, Tamas, Weissing, Franz J., Wittmann, Meike, and Xu, Shuqing

Subjects
bepress|Life Sciences, bepress|Life Sciences|Ecology and Evolutionary Biology|Other Ecology and Evolutionary Biology, bepress|Life Sciences|Ecology and Evolutionary Biology
Abstract

Individuals differ. This seemingly trivial statement has nevertheless led to paradigm shifts, as three different fields of organismal biology have seen a marked change in key concepts over the past few decades. In animal behaviour, it has increasingly been realised that behavioural differences among individuals can be stable over time and across contexts, giving rise to the concept of animal personalities. In ecology, an increasing focus is likewise on the considerable variation in the ecological niche realised by species, populations, and individuals, giving rise to the concept of niche specialisation or individual niche variation. In evolutionary biology, where individual variation has always been central, there is an increasing awareness of the complexity with which individuals interact with the environment in producing unique phenotypes. Recent theoretical and empirical work has highlighted that the fitness landscape is rather complex, with multiple fitness peaks. It depends on the individual with its genotype, in interaction with its specific environment, which local or global fitness peak is attainable. Over the past 15 years, the need for more integrated conceptual frameworks transcending disciplines has been voiced ever more strongly. Whereas initially the ecological time scale was deemed to be fundamentally different from the evolutionary one, this notion has recently been replaced by a more integrative one, where evolution can indeed happen over ecological time scales. While in each of the three fields behaviour, ecology, and evolution, the concept of individualisation has contributed to major scientific progress, sufficient cross-fertilisation is lacking. Here, we propose a new level of conceptual unification: the individualised niche. By merging the niche concept with the fitness and animal personality concepts, new explanatory power for both ecological and evolutionary processes emerges.

Published
2021

40. Genetic similarity between pair mates is not related to extrapair paternity in the socially monogamous coal tit

Author

Schmoll, Tim, Quellmalz, Anja, Dietrich, Verena, Winkel, Wolfgang, Epplen, JoRg T., and Lubjuhn, Thomas

Subjects
Birds, Coal industry, Genetic research, Evolutionary biology, Ecology, Zoology and wildlife conservation
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.anbehav.2004.08.010 Byline: Tim Schmoll, Anja Quellmalz, Verena Dietrich, Wolfgang Winkel, Jorg T. Epplen, Thomas Lubjuhn Abstract: The benefits of extrapair mating behaviour for females of socially monogamous bird species are unclear despite substantial research effort. The genetic compatibility hypothesis proposes genetic benefits such that females paired to social mates of low genetic compatibility avoid or diminish negative fitness consequences by mating with a more compatible extrapair mate, resulting in offspring of higher genetic quality. Furthermore, within the context of inbreeding depression observed in natural populations, a high degree of overall genetic similarity between social pair mates may be regarded as a special case of genetic incompatibility. We tested the hypothesis that female extrapair matings represent an adaptive behavioural response to avoid negative consequences of being paired to a genetically similar social pair male in the coal tit, Parus ater, a socially monogamous passerine with high rates of extrapair paternity. In contrast to what was predicted, we found no evidence for a positive association between the genetic similarity of social pair mates (measured as band-sharing coefficients from multilocus DNA fingerprints) and the occurrence of extrapair paternity. Furthermore, the genetic similarity of the cuckolding female with its social mate was not higher when compared pairwise to that of its extrapair mate in 63 uniquely composed triplets. Finally, three parameters of reproductive success were not related to the genetic similarity of social pair mates. We conclude that avoiding the potentially negative fitness consequences of being paired to a genetically similar social pair mate did not select for and thus cannot maintain female extrapair mating behaviour in our study population. Author Affiliation: (*) Institute for Evolutionary Biology and Ecology, University of Bonn, Germany (a ) Institute of Ecology, University of Jena, Germany (a ) Zoological Institute, Technical University of Braunschweig, Germany (As.) Institute of Avian Research 'Vogelwarte Helgoland', Working Group Population Biology, Cremlingen, Germany (**) Human Genetics, Ruhr-University Bochum, Germany Article Note: (miscellaneous) MS. number: 7845R

Published
2005

44. Sex‐specific repeatabilities and effects of relatedness and mating status on copulation duration in an acridid grasshopper

Author

Haneke‐Reinders, Michael, Reinhold, Klaus, and Schmoll, Tim

Subjects
mating history, copulation duration, inbreeding, phenotypic control, repeatability, sperm competition, Original Research
Abstract

In species with direct sperm transfer, copulation duration is a crucial trait that may affect male and female reproductive success and that may vary with the quality of the mating partner. Furthermore, traits such as copulation duration represent the outcome of behavioral interactions between the sexes, for which it is important—but often difficult—to determine which sex is in phenotypic control. Using a double‐mating protocol, we compared copulation durations between (1) virgin and nonvirgin and (2) sibling and nonsibling mating pairs in rufous grasshoppers Gomphocerippus rufus. Nonvirgin copulations took on average approximately 30% longer than virgin copulations, whereas relatedness of mating partners was not a significant predictor of copulation duration. Longer nonvirgin copulations may represent a male adaptation to sperm competition if longer copulations allow more sperm to be transferred or function as postinsemination mate guarding. The absence of differences between pairs with different degrees of relatedness suggests no precopulatory or preinsemination inbreeding avoidance mechanism has evolved in this species, perhaps because there is no inbreeding depression in this species, or because inbreeding avoidance occurs after copulation. Controlling for the effects of male and female mating status (virgin vs. nonvirgin) and relatedness (sibling vs. nonsibling), we found significant repeatabilities (R) in copulation duration for males (R = 0.33; 95% CI: 0.09–0.55) but not for females (R = 0.09; 95% CI: 0.00–0.30). Thus, copulation durations of males more strongly represent a nontransient trait expressed in a consistent manner with different mating partners, suggesting that some aspect of the male phenotype may determine copulation duration in this species. However, overlapping confidence intervals for our sex‐specific repeatability estimates indicate that higher sampling effort is required for conclusive evidence.

Published
2017

48. Chemical signatures in the preen oil of pied flycatchers: testing reproducibility and exploring ontogeny.

Author

Jeanjean, Laurence, Caspers, Barbara A., Schmoll, Tim, and Gilles, Marc

Subjects
*BODY odor, *GAS chromatography/Mass spectrometry (GC-MS), *CHEMICAL ecology, *PASSERIFORMES, *FLYCATCHERS
Abstract

Preen oil – the secretion from the uropygial gland of birds – may have diverse functions in avian reproduction: protection against eggshell bacteria, olfactory crypsis against nest predators and olfactory mate choice. To investigate such functions, we should first characterise variation in preen oil composition, but also confirm that previously described patterns are robust. Replication studies are crucial to test the reproducibility of previous findings, but are rarely undertaken in chemical ecology. Here, we conducted an almost exact replication of a previous study on the chemical composition of preen oil in a wild passerine bird, the pied flycatcher Ficedula hypoleuca. We aimed to estimate the reproducibility of the previous results using larger sample sizes and following a pre‐registered analysis. In addition, we explored the ontogeny of preen oil composition by comparing nestling and adult preen oil. In line with previous findings, preen oil composition was similar between breeding partners and not repeatable within individual females across breeding stages. Female preen oil changed across breeding stages more clearly than in the original study (higher richness, diversity and volatility during incubation than nestling‐rearing), further refuting a role of preen oil in olfactory crypsis in this species. Unlike the original study, we found no difference in chemical profiles between sexes (nestling‐rearing), casting doubt on the proposed role of preen oil as a sex semiochemical in this species. Nestling preen oil differed from adults, was more similar to adult males than to adult females, but was not more similar to parents than to non‐parents. We found family chemical signatures, which, along with the breeding pair signature, suggests an influence of the nest environment on preen oil composition. Our study highlights the importance of replication and provides novel insights into the function and development of preen oil. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

49. Determinants of between-year burrow re-occupation in a colony of the European bee-eater Merops apiaster

Author

Brust, Vera, Bastian, Hans-Valentin, Bastian, Anita, and Schmoll, Tim

Subjects
burrow re-occupation, parasitic diseases, fungi, Breeding ecology, breeding philopatry, burrow reuse, Merops apiaster, European bee-eater, musculoskeletal system, Original Research
Abstract

Re-occupation of existing nesting burrows in the European bee-eater Merops apiaster has only rarely - and if so mostly anecdotically - been documented in the literature record, although such behavior would substantially save time and energy. In this study, we quantify burrow re-occupation in a German colony over a period of eleven years and identify ecological variables determining reuse probability. Of 179 recorded broods, 54% took place in a reused burrow and the overall probability that one of 75 individually recognized burrows would be reused in a given subsequent year was estimated as 26.4%. This indicates that between-year burrow reuse is a common behavior in the study colony which contrasts with findings from studies in other colonies. Furthermore, burrow re-occupation probability declined highly significantly with increasing age of the breeding wall. Statistical separation of within- and between-burrow effects of the age of the breeding wall revealed that a decline in re-occupation probability with individual burrow age was responsible for this and not a selective disappearance of burrows with high re-occupation probability over time. Limited duty cycles of individual burrows may be caused by accumulating detritus or decreasing stability with increasing burrow age. Alternatively, burrow fidelity may presuppose pair fidelity which may also explain the observed restricted burrow reuse duty cycles. A consequent next step would be to extend our within-colony approach to other colonies and compare the ecological circumstances under which bee-eaters reuse breeding burrows.

Published
2015

50. Make EU trade with Brazil sustainable

Author

Kehoe, Laura, Reis, Tiago, Virah-Sawmy, Malika, Balmford, Andrew, Kuemmerle, Tobias, Knohl, Alexander, Antonelli, Alexandre, Hochkirch, Axel, Vira, Bhaskar, Massa, Bruno, Peres, Carlos A., Ammer, Christian, Goerg, Christoph, Schneider, Christoph, Curtis, David, de la Pena, Eduardo, Tello, Enric, Sperfeld, Erik, Corbera, Esteve, Morelli, Federico, Valladares, Fernando, Peterson, Garry, Hide, Geoff, Mace, Georgina, Kallis, Giorgos, Olsson, Gunilla Almered, Brumelis, Guntis, Alexanderson, Helena, Haberl, Helmut, Nuissl, Henning, Kreft, Holger, Ghazoul, Jaboury, Piotrowski, Jan A., Macdiarmid, Jennie, Newig, Jens, Fischer, Joern, Altringham, John, Gledhill, John, Nielsen, Jonas O., Mueller, Joerg, Palmeirim, Jorge, Barlow, Jos, Alonso, Juan C., Presa Asencio, Juan Jose, Steinberger, Julia K., Jones, Julia Patricia Gordon, Cabral, Juliano Sarmento, Dengler, Juergen, Stibral, Karel, Erb, Karlheinz, Rothhaupt, Karl-Otto, Wiegand, Kerstin, Cassar, Louis F., Lens, Luc, Rosalino, Luis Miguel, Wassen, M. J., Stenseke, Marie, Fischer-Kowalski, Marina, Diaz, Mario, Rounsevell, Mark, van Kleunen, Mark, Junginger, Martin, Kaltenpoth, Martin, Zobel, Martin, Weigend, Maximilian, Partel, Meelis, Schilthuizen, Menno, Bastos Araujo, Miguel, Haklay, Muki, Eisenhauer, Nico, Selva, Nuria, Mertz, Ole, Meyfroidt, Patrick, Borges, Paulo A. V., Kovar, Pavel, Smith, Pete, Verburg, Peter, Pysek, Petr, Seppelt, Ralf, Valentini, Riccardo, Whittaker, Robert J., Henrique Faria, Sergio, Ulgiati, Sergio, Loetters, Stefan, Bjorck, Svante, Larson, Sven Ake, Tscharntke, Teja, Domingos, Tiago, Krueger, Tobias, Pascual, Unai, Olsson, Urban, Kati, Vassiliki, Winiwarter, Verena, Reyes-Garcia, Victoria, Vajda, Vivi, Sutherland, William J., de Waroux, Yann le Polain, Buckley, Yvonne, Rammig, Anja, Kasimir, Asa, Crona, Beatrice, Sindicic, Magda, Persson, Martin, Lapka, Miloslav, Di Gregorio, Monica, Hahn, Thomas, Boonstra, Wiebren, Lipsky, Zdenek, Zucaro, A., Roeder, Achim, Lopez Baucells, Adria, Danet, Alain, Franco, Aldina, Nieto Roman, Alejandra, Lehikoinen, Aleksi, Collalti, Alessio, Keller, Alexander, Strugariu, Alexandru, Perrigo, Allison, Fernandez-Llamazares, Alvaro, Salaseviciene, Alvija, Hinsley, Amy, Santos, Ana M. C., Novoa, Ana, Rodrigues, Ana, Mascarenhas, Andre, Martins, Andrea Damacena, Holzschuh, Andrea, Meseguer, Andrea S., Hadjichambis, Andreas, Mayer, Andreas, Hacket-Pain, Andrew, Ringsmuth, Andrew, de Frutos, Angel, Stein, Anke, Heikkinen, Anna, Smith, Annabel, Bjoersne, Anna-Karin, Bagneres, Anne-Genevieve, Machordom, Annie, Kristin, Anton, Ghoddousi, Arash, Staal, Arie, Martin, Arnaud, Taylor, Astrid, Borrell, Asuncion, Marescaux, Audrey, Torres, Aurora, Helm, Aveliina, Bauer, Barbara, Smetschka, Barbara, Rodriguez-Labajos, Beatriz, Peco, Begona, Gambin, Belinda, Celine, Bellard, Phalan, Ben, Cotta, Benedetta, Rugani, Benedetto, Jarcuska, Benjamin, Leroy, Boris, Nikolov, Boris Petrov, Milchev, Boyan Petrov, Brown, Calum, Ritter, Camila Duarte, Gomes, Carmen Bessa, Meyer, Carsten, Munteanu, Catalina, Penone, Caterina, Friis, Cecilie, Teplitsky, Celine, Roemer, Charlotte, Orland, Chloe, Voigt, Christian C., Levers, Christian, Zang, Christian, Bacon, Christine D., Meyer, Christoph, Wordley, Claire, Grilo, Clara, Cattaneo, Claudio, Battisti, Corrado, Banks-Leite, Cristina, Zurell, Damaris, Challender, Dan, Mueller, Daniel, Matenaar, Daniela, Silvestro, Daniele, McKay, David Armstrong, Buckley, David, Frantz, David, Gremillet, David, Mateos, David Moreno, Sanchez-Fernandez, David, Vieites, David, Ascoli, Davide, Arlt, Debora, Louis, Deharveng, Zemp, Delphine Clara, Strubbe, Diederik, Gil, Diego, Llusia, Diego, Bennett, Dominic J., Chobanov, Dragan Petrov, Aguilera, Eduardo, Oliveira, Eduardo, Pynegar, Edwin L., Granda, Elena, Grieco, Elisa, Conrad, Elisabeth, Revilla, Eloy, Lindkvist, Emilie, Caprio, Enrico, zu Ermgassen, Erasmus, Berenguer, Erika, Ochu, Erinma, Polaina, Ester, Nuernberger, Fabian, Esculier, Fabien, de Castro, Fabio, Albanito, Fabrizio, Langerwisch, Fanny, Batsleer, Femke, Ascensao, Fernando, Moyano, Fernando Esteban, Sayol, Ferran, Buzzetti, Filippo Maria, Eiro, Flavio, Volaire, Florence, Gollnow, Florian, Menzel, Florian, Pilo, Francesca, Moreira, Francisco, Briens, Francois, Essl, Franz, Vlahos, George, Billen, Gilles, Vacchiano, Giorgio, Wong, Grace, Gruychev, Gradimir Valentinov, Fandos, Guillermo, Petter, Gunnar, Sinare, Hanna, Mumby, Hannah S., Cottyn, Hanne, Seebens, Hanno, Bjorklund, Heidi, Schroeder, Heike, Lopez Hernandez, Heriberto D., Rebelo, Hugo, Chenet, Hugues, De la Riva, Ignacio, Torre, Ignasi, Aalders, Inge, Grass, Ingo, Chuine, Isabelle, Goepel, Jan, Wieringa, Jan J., Engler, Jan O., Pergl, Jan, Schnitzler, Jan, Vavra, Jan, Medvedovic, Jasna, Cabello, Javier, Martin, Jean-Louis, Mutke, Jens, Lewis, Jerome, da Silva, Jessica Fonseca, Marull, Joan, Carvalho, Joana, Carnicer, Jofre, Enqvist, Johan, Simaika, John P., Noguera, Jose C., Blanco Moreno, Jose M., Bruna, Josef, Garnier, Josette, Fargallo, Juan A., Rocha, Juan Carlos, Carrillo, Juan D., Infante-Amate, Juan, Traba Diaz, Juan, Schleicher, Judith, Simon, Judy, Noe, Julia Le, Gerlach, Justin, Eriksson, K. Martin, Prince, Karine, Ostapowicz, Katarzyna, Stajerova, Katerina, Farrell, Katharine N., Snell, Katherine, Yates, Katherine, Fleischer, Katrin, Darras, Kevin, Schumacher, Kim, Orach, Kirill, Thonicke, Kirsten, Riede, Klaus, Heller, Klaus-Gerhard, Wang-Erlandsson, Lan, Pereira, Laura, Riggi, Laura, Florez, Laura V., Emperaire, Laure, Durieux, Laurent, Tatin, Laurent, Rozylowicz, Laurentiu, Latella, Leonardo, Andresen, Louise C., Cahen-Fourot, Louison, de Agua, Luis Borda, Boto, Luis, Lassaletta, Luis, Amo, Luisa, Sekerka, Lukas, Morales, Manuel B., Macia, Manuel J., Suarez, Manuela Gonzalez, Cabeza, Mar, Londo, Marc, Pollet, Marc, Schwieder, Marcel, Peters, Marcell K., D'Amico, Marcello, Casazza, Marco, Florencio, Margarita, Felipe-Lucia, Maria, Gebara, Maria Fernanda, Johansson, Maria, Garcia, Maria Mancilla, Piquer-Rodriguez, Maria, Tengo, Maria, Elias, Marianne, Leve, Marine, Conde, Marta, Winter, Marten, Koster, Martijn, Mayer, Martin, Salek, Martin, Schlerf, Martin, Sullivan, Martin, Baumann, Matthias, Pichler, Melanie, Marselle, Melissa, Oddie, Melissa, Razanajatovo, Mialy, Borregaard, Michael Krabbe, Theurl, Michaela C., Hernandez, Miguel, Krofel, Miha, Kechev, Mihail Ognianov, Clark, Mike, Rands, Mike, Antal, Miklos, Pucetaite, Milda, Islar, Mine, Truong, Minh-Xuan A., Vighi, Morgana, Johanisova, Nadia, Prat, Narcis, Escobar, Neus, Deguines, Nicolas, Rust, Niki, Zafra-Calvo, Noelia, Maurel, Noelie, Wagner, Norman, Fitton, Nuala, Ostermann, Ole, Panferov, Oleg, Ange, Olivia, Canals, Oriol, Englund, Oskar, De Smedt, Pallieter, Petridis, Panos, Heikkurinen, Pasi, Weigelt, Patrick, Henriksson, Patrik J. G., de Castro, Paula Drummond, Matos-Maravi, Pavel, Duran, Paz, Aragon, Pedro, Cardoso, Pedro, Leitao, Pedro J., Hosner, Peter A., Biedermann, Peter, Keil, Petr, Petrik, Petr, Martin, Philip, Bocquillon, Pierre, Renaud, Pierre-Cyril, Addison, Prue, Antwis, Rachael, Carmenta, Rachel, Barrientos, Rafael, Smith, Rebecca, Rocha, Ricardo, Fuchs, Richard, Felix, Rob, Kanka, Robert, Aguilee, Robin, Padro Caminal, Roc, Libbrecht, Romain, Lorrilliere, Romain, van der Ent, Ruud J., Henders, Sabine, Pueyo, Salvador, Roturier, Samuel, Jacobs, Sander, Lavorel, Sandra, Leonhardt, Sara Diana, Fraixedas, Sara, Villen-Perez, Sara, Cornell, Sarah, Redlich, Sarah, De Smedt, Sebastian, van der Linden, Sebastian, Perez-Ortega, Sergio, Petrovan, Silviu, Cesarz, Simone, Sjoberg, Sissel, Caillon, Sophie, Schindler, Stefan, Trogisch, Stefan, Taiti, Stefano, Oppel, Steffen, Lutter, Stephan, Garnett, Tara, Guedes, Thais, Wanger, Thomas Cherico, Kastner, Thomas, Worthington, Thomas, Daw, Tim, Schmoll, Tim, McPhearson, Timon, Engl, Tobias, Rutting, Tobias, Vaclavik, Tomas, Jucker, Tommaso, Robillard, Tony, Krause, Torsten, Ljubomirov, Toshko, Aavik, Tsipe, Richardson, Vanessa A., Masterson, Vanessa Anne, Seufert, Verena, Cathy, Vet Gibault, Colino Rabanal, Victor, Montade, Vincent, Thieu, Vincent, Sober, Virve, Morin, Xavier, Mehrabi, Zia, Gonzalez, Adriana Trompetero, Sanz-Cobena, Alberto, Christie, Alec Philip, Romero-Munoz, Alfredo, Dauriach, Alice, Queiroz, Allan Souza, Golland, Ami, Evans, Amy Louise, Cordero, Ana Maria Araujo, Dara, Andrey, Rilovic, Andro, Pedersen, Anna Frohn, Csergo, Anna Maria, Lewerentz, Anne, Monserand, Antoine, Valdecasas, Antonio G., Doherty, Anya, Semper-Pascual, Asuncion, Bleyhl, Benjamin, Rutschmann, Benjamin, Bongalov, Boris, Hankerson, Brett, Heylen, Brigitte, Alonso-Alvarez, Carlos, Comandulli, Carolina, Frossard, Carolina M., Mckeon, Caroline, Godde, Cecile, Palm, Celinda, Singh, Chandrakant, Sieger, Charlotte Sophie, Ohrling, Christian, Paitan, Claudia Parra, Cooper, Conor, Edler, Daniel, Roessler, Daniela C., Kessner-Beierlein, Daniela, Garcia del Amo, David, Lopez Bosch, David, Gueldner, Dino, Noll, Domink, Motivans, Elena, Canteri, Elisabetta, Garnett, Emma, Malecore, Eva, Brambach, Fabian, Ruedenauer, Fabian, Yin, Fang, Hurtado, Fernando, Mempel, Finn, de Freitas, Flavio Luiz Mazzaro, Pendrill, Florence, Leijten, Floris, Somma, Francesca, Schug, Franz, De Knijf, Geert, Peterson, Gustaf, Pe'er, Guy, Booth, Hollie, Rhee, Howon, Staude, Ingmar, Gherghel, Iulian, Vila Traver, Jaime, Kerner, Janika, Hinton, Jennifer, Hortal, Joaquin, Persson, Joel, Uddling, Johan, Coenen, Johanna, Geldmann, Jonas, Geschke, Jonas, Juergensen, Jonathan, Lobo, Jorge M., Skejo, Josip, Heinen, Julia Helena, Schuenzel, Julia, Daniel-Ferreira, Juliana, Christophe Piquet, Julien, Murtough, Katie L., Prevel, Leonie, Hissa, Leticia B. V., af Segerstad, Louise Hard, Willemse, Luc, Benavides, Lucia, Sovova, Lucie, Figueiredo, Ludmilla, Leidinger, Ludwig, Piemontese, Luigi, da Fonte, Luis Fernando Marin, Moreta, Lys Sanz, Bhan, Manan, Toledo-Hernandez, Manuel, Engert, Manuela, Davoli, Marco, Mas Navarro, Maria, Voigt, Maria, Zirion, Maria, Wandl, Marie-Theres, Kipson, Marina, Johnson, Mark D., Lukic, Marko, Goula, Marta, Jung, Martin, Nunes, Matheus Henrique, Alvarez, Matheus Rodriguez, van den Burg, Matthijs P., Guerrero, Mayra Daniela Pena, Greenfield, Michael, Lobmann, Michael, Nygren, Michelle, Guth, Miriam Karen, Koh, Niak, Stanek, Nicola, Roux, Nicolas, Karagouni, Niki, Tiralla, Nina, Mairota, Paola, Savaget, Paulo, von Doehren, Peer, Benyei, Petra, Lena, Philippe, Rufin, Philippe, Janke, Rebekka, Santagata, Remo, Motta, Renzo, Battiston, Roberto, Oyanedel, Rodrigo, Bernardo-Madrid, Ruben, Vasconcelos, Sasha, Henriques, Sergio, Bager, Simon L., Qin, Siyu, Ivkovic, Slobodan, Cooke, Sophia, Ernst, Stefan, Schmelzer, Stefan, da Silva, Sven, Faberova, Tamara, Enseroth, Tanja, De Marzo, Teresa, Pienkowski, Thomas, Engel, Thore, Boehnert, Tim, Swinfield, Tom, Kurdikova, Vendula, Chvatalova, Veronika, Lopez-Marquez, Violeta, Arlidge, William, Zhang, Zhijie, Kehoe, Laura, Reis, Tiago, Virah-Sawmy, Malika, Balmford, Andrew, Kuemmerle, Tobias, Knohl, Alexander, Antonelli, Alexandre, Hochkirch, Axel, Vira, Bhaskar, Massa, Bruno, Peres, Carlos A., Ammer, Christian, Goerg, Christoph, Schneider, Christoph, Curtis, David, de la Pena, Eduardo, Tello, Enric, Sperfeld, Erik, Corbera, Esteve, Morelli, Federico, Valladares, Fernando, Peterson, Garry, Hide, Geoff, Mace, Georgina, Kallis, Giorgos, Olsson, Gunilla Almered, Brumelis, Guntis, Alexanderson, Helena, Haberl, Helmut, Nuissl, Henning, Kreft, Holger, Ghazoul, Jaboury, Piotrowski, Jan A., Macdiarmid, Jennie, Newig, Jens, Fischer, Joern, Altringham, John, Gledhill, John, Nielsen, Jonas O., Mueller, Joerg, Palmeirim, Jorge, Barlow, Jos, Alonso, Juan C., Presa Asencio, Juan Jose, Steinberger, Julia K., Jones, Julia Patricia Gordon, Cabral, Juliano Sarmento, Dengler, Juergen, Stibral, Karel, Erb, Karlheinz, Rothhaupt, Karl-Otto, Wiegand, Kerstin, Cassar, Louis F., Lens, Luc, Rosalino, Luis Miguel, Wassen, M. J., Stenseke, Marie, Fischer-Kowalski, Marina, Diaz, Mario, Rounsevell, Mark, van Kleunen, Mark, Junginger, Martin, Kaltenpoth, Martin, Zobel, Martin, Weigend, Maximilian, Partel, Meelis, Schilthuizen, Menno, Bastos Araujo, Miguel, Haklay, Muki, Eisenhauer, Nico, Selva, Nuria, Mertz, Ole, Meyfroidt, Patrick, Borges, Paulo A. V., Kovar, Pavel, Smith, Pete, Verburg, Peter, Pysek, Petr, Seppelt, Ralf, Valentini, Riccardo, Whittaker, Robert J., Henrique Faria, Sergio, Ulgiati, Sergio, Loetters, Stefan, Bjorck, Svante, Larson, Sven Ake, Tscharntke, Teja, Domingos, Tiago, Krueger, Tobias, Pascual, Unai, Olsson, Urban, Kati, Vassiliki, Winiwarter, Verena, Reyes-Garcia, Victoria, Vajda, Vivi, Sutherland, William J., de Waroux, Yann le Polain, Buckley, Yvonne, Rammig, Anja, Kasimir, Asa, Crona, Beatrice, Sindicic, Magda, Persson, Martin, Lapka, Miloslav, Di Gregorio, Monica, Hahn, Thomas, Boonstra, Wiebren, Lipsky, Zdenek, Zucaro, A., Roeder, Achim, Lopez Baucells, Adria, Danet, Alain, Franco, Aldina, Nieto Roman, Alejandra, Lehikoinen, Aleksi, Collalti, Alessio, Keller, Alexander, Strugariu, Alexandru, Perrigo, Allison, Fernandez-Llamazares, Alvaro, Salaseviciene, Alvija, Hinsley, Amy, Santos, Ana M. C., Novoa, Ana, Rodrigues, Ana, Mascarenhas, Andre, Martins, Andrea Damacena, Holzschuh, Andrea, Meseguer, Andrea S., Hadjichambis, Andreas, Mayer, Andreas, Hacket-Pain, Andrew, Ringsmuth, Andrew, de Frutos, Angel, Stein, Anke, Heikkinen, Anna, Smith, Annabel, Bjoersne, Anna-Karin, Bagneres, Anne-Genevieve, Machordom, Annie, Kristin, Anton, Ghoddousi, Arash, Staal, Arie, Martin, Arnaud, Taylor, Astrid, Borrell, Asuncion, Marescaux, Audrey, Torres, Aurora, Helm, Aveliina, Bauer, Barbara, Smetschka, Barbara, Rodriguez-Labajos, Beatriz, Peco, Begona, Gambin, Belinda, Celine, Bellard, Phalan, Ben, Cotta, Benedetta, Rugani, Benedetto, Jarcuska, Benjamin, Leroy, Boris, Nikolov, Boris Petrov, Milchev, Boyan Petrov, Brown, Calum, Ritter, Camila Duarte, Gomes, Carmen Bessa, Meyer, Carsten, Munteanu, Catalina, Penone, Caterina, Friis, Cecilie, Teplitsky, Celine, Roemer, Charlotte, Orland, Chloe, Voigt, Christian C., Levers, Christian, Zang, Christian, Bacon, Christine D., Meyer, Christoph, Wordley, Claire, Grilo, Clara, Cattaneo, Claudio, Battisti, Corrado, Banks-Leite, Cristina, Zurell, Damaris, Challender, Dan, Mueller, Daniel, Matenaar, Daniela, Silvestro, Daniele, McKay, David Armstrong, Buckley, David, Frantz, David, Gremillet, David, Mateos, David Moreno, Sanchez-Fernandez, David, Vieites, David, Ascoli, Davide, Arlt, Debora, Louis, Deharveng, Zemp, Delphine Clara, Strubbe, Diederik, Gil, Diego, Llusia, Diego, Bennett, Dominic J., Chobanov, Dragan Petrov, Aguilera, Eduardo, Oliveira, Eduardo, Pynegar, Edwin L., Granda, Elena, Grieco, Elisa, Conrad, Elisabeth, Revilla, Eloy, Lindkvist, Emilie, Caprio, Enrico, zu Ermgassen, Erasmus, Berenguer, Erika, Ochu, Erinma, Polaina, Ester, Nuernberger, Fabian, Esculier, Fabien, de Castro, Fabio, Albanito, Fabrizio, Langerwisch, Fanny, Batsleer, Femke, Ascensao, Fernando, Moyano, Fernando Esteban, Sayol, Ferran, Buzzetti, Filippo Maria, Eiro, Flavio, Volaire, Florence, Gollnow, Florian, Menzel, Florian, Pilo, Francesca, Moreira, Francisco, Briens, Francois, Essl, Franz, Vlahos, George, Billen, Gilles, Vacchiano, Giorgio, Wong, Grace, Gruychev, Gradimir Valentinov, Fandos, Guillermo, Petter, Gunnar, Sinare, Hanna, Mumby, Hannah S., Cottyn, Hanne, Seebens, Hanno, Bjorklund, Heidi, Schroeder, Heike, Lopez Hernandez, Heriberto D., Rebelo, Hugo, Chenet, Hugues, De la Riva, Ignacio, Torre, Ignasi, Aalders, Inge, Grass, Ingo, Chuine, Isabelle, Goepel, Jan, Wieringa, Jan J., Engler, Jan O., Pergl, Jan, Schnitzler, Jan, Vavra, Jan, Medvedovic, Jasna, Cabello, Javier, Martin, Jean-Louis, Mutke, Jens, Lewis, Jerome, da Silva, Jessica Fonseca, Marull, Joan, Carvalho, Joana, Carnicer, Jofre, Enqvist, Johan, Simaika, John P., Noguera, Jose C., Blanco Moreno, Jose M., Bruna, Josef, Garnier, Josette, Fargallo, Juan A., Rocha, Juan Carlos, Carrillo, Juan D., Infante-Amate, Juan, Traba Diaz, Juan, Schleicher, Judith, Simon, Judy, Noe, Julia Le, Gerlach, Justin, Eriksson, K. Martin, Prince, Karine, Ostapowicz, Katarzyna, Stajerova, Katerina, Farrell, Katharine N., Snell, Katherine, Yates, Katherine, Fleischer, Katrin, Darras, Kevin, Schumacher, Kim, Orach, Kirill, Thonicke, Kirsten, Riede, Klaus, Heller, Klaus-Gerhard, Wang-Erlandsson, Lan, Pereira, Laura, Riggi, Laura, Florez, Laura V., Emperaire, Laure, Durieux, Laurent, Tatin, Laurent, Rozylowicz, Laurentiu, Latella, Leonardo, Andresen, Louise C., Cahen-Fourot, Louison, de Agua, Luis Borda, Boto, Luis, Lassaletta, Luis, Amo, Luisa, Sekerka, Lukas, Morales, Manuel B., Macia, Manuel J., Suarez, Manuela Gonzalez, Cabeza, Mar, Londo, Marc, Pollet, Marc, Schwieder, Marcel, Peters, Marcell K., D'Amico, Marcello, Casazza, Marco, Florencio, Margarita, Felipe-Lucia, Maria, Gebara, Maria Fernanda, Johansson, Maria, Garcia, Maria Mancilla, Piquer-Rodriguez, Maria, Tengo, Maria, Elias, Marianne, Leve, Marine, Conde, Marta, Winter, Marten, Koster, Martijn, Mayer, Martin, Salek, Martin, Schlerf, Martin, Sullivan, Martin, Baumann, Matthias, Pichler, Melanie, Marselle, Melissa, Oddie, Melissa, Razanajatovo, Mialy, Borregaard, Michael Krabbe, Theurl, Michaela C., Hernandez, Miguel, Krofel, Miha, Kechev, Mihail Ognianov, Clark, Mike, Rands, Mike, Antal, Miklos, Pucetaite, Milda, Islar, Mine, Truong, Minh-Xuan A., Vighi, Morgana, Johanisova, Nadia, Prat, Narcis, Escobar, Neus, Deguines, Nicolas, Rust, Niki, Zafra-Calvo, Noelia, Maurel, Noelie, Wagner, Norman, Fitton, Nuala, Ostermann, Ole, Panferov, Oleg, Ange, Olivia, Canals, Oriol, Englund, Oskar, De Smedt, Pallieter, Petridis, Panos, Heikkurinen, Pasi, Weigelt, Patrick, Henriksson, Patrik J. G., de Castro, Paula Drummond, Matos-Maravi, Pavel, Duran, Paz, Aragon, Pedro, Cardoso, Pedro, Leitao, Pedro J., Hosner, Peter A., Biedermann, Peter, Keil, Petr, Petrik, Petr, Martin, Philip, Bocquillon, Pierre, Renaud, Pierre-Cyril, Addison, Prue, Antwis, Rachael, Carmenta, Rachel, Barrientos, Rafael, Smith, Rebecca, Rocha, Ricardo, Fuchs, Richard, Felix, Rob, Kanka, Robert, Aguilee, Robin, Padro Caminal, Roc, Libbrecht, Romain, Lorrilliere, Romain, van der Ent, Ruud J., Henders, Sabine, Pueyo, Salvador, Roturier, Samuel, Jacobs, Sander, Lavorel, Sandra, Leonhardt, Sara Diana, Fraixedas, Sara, Villen-Perez, Sara, Cornell, Sarah, Redlich, Sarah, De Smedt, Sebastian, van der Linden, Sebastian, Perez-Ortega, Sergio, Petrovan, Silviu, Cesarz, Simone, Sjoberg, Sissel, Caillon, Sophie, Schindler, Stefan, Trogisch, Stefan, Taiti, Stefano, Oppel, Steffen, Lutter, Stephan, Garnett, Tara, Guedes, Thais, Wanger, Thomas Cherico, Kastner, Thomas, Worthington, Thomas, Daw, Tim, Schmoll, Tim, McPhearson, Timon, Engl, Tobias, Rutting, Tobias, Vaclavik, Tomas, Jucker, Tommaso, Robillard, Tony, Krause, Torsten, Ljubomirov, Toshko, Aavik, Tsipe, Richardson, Vanessa A., Masterson, Vanessa Anne, Seufert, Verena, Cathy, Vet Gibault, Colino Rabanal, Victor, Montade, Vincent, Thieu, Vincent, Sober, Virve, Morin, Xavier, Mehrabi, Zia, Gonzalez, Adriana Trompetero, Sanz-Cobena, Alberto, Christie, Alec Philip, Romero-Munoz, Alfredo, Dauriach, Alice, Queiroz, Allan Souza, Golland, Ami, Evans, Amy Louise, Cordero, Ana Maria Araujo, Dara, Andrey, Rilovic, Andro, Pedersen, Anna Frohn, Csergo, Anna Maria, Lewerentz, Anne, Monserand, Antoine, Valdecasas, Antonio G., Doherty, Anya, Semper-Pascual, Asuncion, Bleyhl, Benjamin, Rutschmann, Benjamin, Bongalov, Boris, Hankerson, Brett, Heylen, Brigitte, Alonso-Alvarez, Carlos, Comandulli, Carolina, Frossard, Carolina M., Mckeon, Caroline, Godde, Cecile, Palm, Celinda, Singh, Chandrakant, Sieger, Charlotte Sophie, Ohrling, Christian, Paitan, Claudia Parra, Cooper, Conor, Edler, Daniel, Roessler, Daniela C., Kessner-Beierlein, Daniela, Garcia del Amo, David, Lopez Bosch, David, Gueldner, Dino, Noll, Domink, Motivans, Elena, Canteri, Elisabetta, Garnett, Emma, Malecore, Eva, Brambach, Fabian, Ruedenauer, Fabian, Yin, Fang, Hurtado, Fernando, Mempel, Finn, de Freitas, Flavio Luiz Mazzaro, Pendrill, Florence, Leijten, Floris, Somma, Francesca, Schug, Franz, De Knijf, Geert, Peterson, Gustaf, Pe'er, Guy, Booth, Hollie, Rhee, Howon, Staude, Ingmar, Gherghel, Iulian, Vila Traver, Jaime, Kerner, Janika, Hinton, Jennifer, Hortal, Joaquin, Persson, Joel, Uddling, Johan, Coenen, Johanna, Geldmann, Jonas, Geschke, Jonas, Juergensen, Jonathan, Lobo, Jorge M., Skejo, Josip, Heinen, Julia Helena, Schuenzel, Julia, Daniel-Ferreira, Juliana, Christophe Piquet, Julien, Murtough, Katie L., Prevel, Leonie, Hissa, Leticia B. V., af Segerstad, Louise Hard, Willemse, Luc, Benavides, Lucia, Sovova, Lucie, Figueiredo, Ludmilla, Leidinger, Ludwig, Piemontese, Luigi, da Fonte, Luis Fernando Marin, Moreta, Lys Sanz, Bhan, Manan, Toledo-Hernandez, Manuel, Engert, Manuela, Davoli, Marco, Mas Navarro, Maria, Voigt, Maria, Zirion, Maria, Wandl, Marie-Theres, Kipson, Marina, Johnson, Mark D., Lukic, Marko, Goula, Marta, Jung, Martin, Nunes, Matheus Henrique, Alvarez, Matheus Rodriguez, van den Burg, Matthijs P., Guerrero, Mayra Daniela Pena, Greenfield, Michael, Lobmann, Michael, Nygren, Michelle, Guth, Miriam Karen, Koh, Niak, Stanek, Nicola, Roux, Nicolas, Karagouni, Niki, Tiralla, Nina, Mairota, Paola, Savaget, Paulo, von Doehren, Peer, Benyei, Petra, Lena, Philippe, Rufin, Philippe, Janke, Rebekka, Santagata, Remo, Motta, Renzo, Battiston, Roberto, Oyanedel, Rodrigo, Bernardo-Madrid, Ruben, Vasconcelos, Sasha, Henriques, Sergio, Bager, Simon L., Qin, Siyu, Ivkovic, Slobodan, Cooke, Sophia, Ernst, Stefan, Schmelzer, Stefan, da Silva, Sven, Faberova, Tamara, Enseroth, Tanja, De Marzo, Teresa, Pienkowski, Thomas, Engel, Thore, Boehnert, Tim, Swinfield, Tom, Kurdikova, Vendula, Chvatalova, Veronika, Lopez-Marquez, Violeta, Arlidge, William, and Zhang, Zhijie

Published
2019
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results