12 results on '"Signorotti L"'
Search Results
2. Cuticular hydrocarbons or peptides: which one is resposible for nestmate recognition in Polistes dominulus?
- Author
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Bruschini, C., Cervo, R., Cini, A., Signorotti, L., Pontieri, L., and Turillazzi, S.
- Published
- 2010
3. Metodi e strumenti del Risk Management nell’assistenza infermieristica: inquadramento teorico ed esperienze applicative
- Author
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Motta, Paolo Carlo, Beretti, S., and Signorotti, L.
- Published
- 2009
4. «Il contributo dell’Infermieristica nella gestione del rischio clinico»
- Author
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Motta, Paolo Carlo and Signorotti, L.
- Published
- 2009
5. [Census of experiences implemented during the Covid period in the Novara, vercelli, Vallemaggia and Locarno areas].
- Author
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Viottini E, Albanesi B, Salvaggio L, Mannamplackal S, Busca E, Signorotti L, Suardi B, Maulini S, Dal Molin A, and Campagna S
- Subjects
- Aged, Censuses, Delivery of Health Care, Humans, Masks, COVID-19 epidemiology, Pandemics
- Abstract
. Experiences implemented during the Covid period in the Novara, Vercelli, Vallemaggia and Locarno areas., Introduction: The Covid-19 pandemic promoted the organization of several initiatives for the elderly., Aim: To map the local district initiatives for citizens >65 years active during the Covid pandemic in 3 districts of Piedmont and Ticino Canton., Methods: The data were collected through interviews, contacting local Institutions, volunteer organisations and associations and through free research on the web and on institutional websites., Results: The 26 interviews were conducted between August and September 2022: 16 in the Novara area, 4 in Vercelli and 6 in Canton Ticino. Forty-six initiatives were collected, mainly addressing social-healthcare needs, of which seven were already active in the pre-covid period; overall eight are still ongoing. The initiatives consisted of listening windows, home support (meals, shopping, face-masks, delivery of clean clothes to hospitalized patients). 31 were activated by public services with the collaboration of voluntary services., Conclusions: The mapping of the initiatives showed their heterogeneity and the fundamental role of volunteering in guaranteeing the continuity of supporting services. These experiences should be consolidated over time by institutions and the public health service, enhancing the contribution of volunteers.
- Published
- 2022
- Full Text
- View/download PDF
6. Rethinking recognition: social context in adult life rather than early experience shapes recognition in a social wasp.
- Author
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Cappa F, Cini A, Signorotti L, and Cervo R
- Subjects
- Animals, Social Environment, Recognition, Psychology, Wasps physiology
- Abstract
Social recognition represents the foundation of social living. To what extent social recognition is hard-wired by early-life experience or flexible and influenced by social context of later life stages is a crucial question in animal behaviour studies. Social insects have represented classic models to investigate the subject, and the acknowledged idea is that relevant information to create the referent template for nest-mate recognition (NMR) is usually acquired during an early sensitive period in adult life. Experimental evidence, however, highlighted that other processes may also be at work in creating the template and that such a template may be updated during adult life according to social requirements. However, currently, we lack an ad hoc experiment testing the alternative hypotheses at the basis of NMR ontogeny in social insects. Thus, to investigate the mechanisms underlying the ontogeny of NMR in Polistes wasps, a model genus in recognition studies, and their different role in determining recognition abilities, we subjected Polistes dominula workers to different olfactory experiences in different phases of their life before inserting them into the social environment of a novel colony and testing them in recognition bioassays. Our results show that workers develop their NMR abilities based on their social context rather than through pre-imaginal and early learning or self-referencing. Our study demonstrates that the social context represents the major component shaping recognition abilities in a social wasp, therefore shedding new light on the ontogeny of recognition in paper wasps and prompting the reader to rethink about the traditional knowledge at the basis of the recognition in social insects. This article is part of the theme issue 'Signal detection theory in recognition systems: from evolving models to experimental tests'.
- Published
- 2020
- Full Text
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7. Phenotypic correlation between queen and worker brood care supports the role of maternal care in the evolution of eusociality.
- Author
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Walsh JT, Signorotti L, Linksvayer TA, and d'Ettorre P
- Abstract
Cooperative brood care by siblings, a defining feature of eusociality, is hypothesized to be evolutionarily derived from maternal care via shifts in the timing of the expression of genes underlying maternal care. If sibling and maternal care share a genetic basis, the two behaviors are expected to be genetically and phenotypically correlated. We tested this prediction in the black garden ant Lasius niger by quantifying the brood retrieval rate of queens and their first and later generation worker offspring. Brood retrieval rate of queens was positively phenotypically correlated with the brood retrieval rate of first generation but not with later generation workers. The difference between first and later generation workers could be due to the stronger similarity in care behavior provided by queens and first generation workers compared to later generations. Furthermore, we found that queen retrieval rate was positively correlated with colony productivity, suggesting that natural selection is acting on maternal care. Overall, our results support the idea of a shared genetic basis between maternal and sibling care as well as queen and worker traits more generally, which has implications for the role of intercaste correlations in the evolution of queen and worker traits and eusociality.
- Published
- 2018
- Full Text
- View/download PDF
8. Individual differences in exploratory activity relate to cognitive judgement bias in carpenter ants.
- Author
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d'Ettorre P, Carere C, Demora L, Le Quinquis P, Signorotti L, and Bovet D
- Subjects
- Animals, Behavior, Animal physiology, Cognition physiology, Exploratory Behavior physiology, Individuality, Ants physiology
- Abstract
Emotional state may influence cognitive processes such as attention and decision-making. A cognitive judgement bias is the propensity to anticipate either positive or negative consequences in response to ambiguous information. Recent work, mainly on vertebrates, showed that the response to ambiguous stimuli might change depending on an individual's affective state, which is influenced by e.g. the social and physical environment. However, the response to ambiguous stimuli could also be affected by the individual's behavioural type (personality), a question that has been under-investigated. We studied the link between individual differences in exploratory activity and the response to an ambiguous stimulus in the ant Camponotus aethiops. Exploratory behaviour, quantified with an open-field test, was variable among individuals but consistent over time within individuals. Individual ants learned to associate a spatial position to a reinforcement and another spatial position to a punishment. Once the ants had acquired this discrimination, cognitive judgement bias was tested with the stimulus in an intermediate position. Fast explorers in the open-field took significantly more time to approach the ambiguous stimulus compared to slow explorers, suggesting a negative judgement bias for fast explorers and a positive bias for slow explorers. This previously unknown link between individual difference in exploratory activity and cognitive bias in a social insect may help understanding the evolution and organization of social life., (Copyright © 2016 Elsevier B.V. All rights reserved.)
- Published
- 2017
- Full Text
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9. Novel insights into the ontogeny of nestmate recognition in Polistes social wasps.
- Author
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Signorotti L, Cappa F, d'Ettorre P, and Cervo R
- Subjects
- Animals, Hydrocarbons chemistry, Hydrocarbons metabolism, Odorants, Perception physiology, Recognition, Psychology, Behavior, Animal physiology, Learning physiology, Social Behavior, Wasps physiology
- Abstract
The importance of early experience in animals' life is unquestionable, and imprinting-like phenomena may shape important aspects of behaviour. Early learning typically occurs during a sensitive period, which restricts crucial processes of information storage to a specific developmental phase. The characteristics of the sensitive period have been largely investigated in vertebrates, because of their complexity and plasticity, both in behaviour and neurophysiology, but early learning occurs also in invertebrates. In social insects, early learning appears to influence important social behaviours such as nestmate recognition. Yet, the mechanisms underlying recognition systems are not fully understood. It is currently believed that Polistes social wasps are able to discriminate nestmates from non-nestmates following the perception of olfactory cues present on the paper of their nest, which are learned during a strict sensitive period, immediately after emergence. Here, through differential odour experience experiments, we show that workers of Polistes dominula develop correct nestmate recognition abilities soon after emergence even in absence of what have been so far considered the necessary cues (the chemicals spread on nest paper). P. dominula workers were exposed for the first four days of adult life to paper fragments from their nest, or from a foreign conspecific nest or to a neutral condition. Wasps were then transferred to their original nests where recognition abilities were tested. Our results show that wasps do not alter their recognition ability if exposed only to nest material, or in absence of nest material, during the early phase of adult life. It thus appears that the nest paper is not used as a source of recognition cues to be learned in a specific time window, although we discuss possible alternative explanations. Our study provides a novel perspective for the study of the ontogeny of nestmate recognition in Polistes wasps and in other social insects.
- Published
- 2014
- Full Text
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10. Larval memory affects adult nest-mate recognition in the ant Aphaenogaster senilis.
- Author
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Signorotti L, Jaisson P, and d'Ettorre P
- Subjects
- Aggression, Animals, Ants growth & development, Cues, Larva physiology, Ants physiology, Behavior, Animal, Memory, Odorants, Recognition, Psychology
- Abstract
Prenatal olfactory learning has been demonstrated in a wide variety of animals, where it affects development and behaviour. Young ants learn the chemical signature of their colony. This cue-learning process allows the formation of a template used for nest-mate recognition in order to distinguish alien individuals from nest-mates, thus ensuring that cooperation is directed towards group members and aliens are kept outside the colony. To date, no study has investigated the possible effect of cue learning during early developmental stages on adult nest-mate recognition. Here, we show that odour familiarization during preimaginal life affects recognition abilities of adult Aphaenogaster senilis ants, particularly when the familiarization process occurs during the first larval stages. Ants eclosed from larvae exposed to the odour of an adoptive colony showed reduced aggression towards familiar, adoptive individuals belonging to this colony compared with alien individuals (true unfamiliar), but they remained non-aggressive towards adult individuals of their natal colony. Moreover, we found that the chemical similarity between the colony of origin and the adoptive colony does not influence the degree of aggression, meaning that the observed effect is likely to be due only to preimaginal learning experience. These results help understanding the developmental processes underlying efficient recognition systems.
- Published
- 2013
- Full Text
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11. The chemical basis of host nest detection and chemical integration in a cuckoo paper wasp.
- Author
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Cini A, Bruschini C, Signorotti L, Pontieri L, Turillazzi S, and Cervo R
- Subjects
- Animals, Female, Italy, Mass Spectrometry, Nesting Behavior physiology, Species Specificity, Statistics, Nonparametric, Wasps metabolism, Animal Communication, Hydrocarbons metabolism, Odorants, Recognition, Psychology physiology, Social Behavior, Wasps physiology
- Abstract
Insect social life is governed by chemicals. A great number of studies have demonstrated that the blend of hydrocarbons present on the cuticle (CHCs) plays a pivotal role in intra- and inter-specific communication. It is not surprising, therefore, that social parasites, specialized in exploiting the costly parental care provided by host workers, exploit the host chemical communication system too. Throughout their life cycle, social parasites intercept and break this CHC-based code. Recently, however, several polar compounds (mainly peptides) have been found in addition to CHCs both on the cuticle and on the comb surface of social insects, and their semiochemical role has been demonstrated in some circumstances. In the present study, we used the paper wasp social parasite-host system Polistes sulcifer (Zimmerman)-Polistes dominulus (Christ) to evaluate the relative importance of the CHCs and polar compounds in two different steps of the host exploitation process: host nest detection by the pre-usurping parasite and parasite chemical integration into the host colony. After separating the polar and apolar fractions of the host nest as well as those of pre- and post-usurpation parasites, we carried out laboratory assays based on the binary choice model. Our results show that nest polar compounds neither are used by the parasite to detect the host's nest nor play a role in parasite chemical integration into the host colony. In contrast, we demonstrate that CHCs are fundamental in both steps, thus confirming their primary role in social insect life and consequently in social parasite-host interactions.
- Published
- 2011
- Full Text
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12. Cuticular hydrocarbons rather than peptides are responsible for nestmate recognition in Polistes dominulus.
- Author
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Bruschini C, Cervo R, Cini A, Pieraccini G, Pontieri L, Signorotti L, and Turillazzi S
- Subjects
- Animals, Behavior, Animal, Cues, Peptides analysis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Wasps physiology, Hydrocarbons analysis, Wasps chemistry
- Abstract
A colony of social insects is like a fortress where access is allowed only to colony members. The epicuticular mixture of hydrocarbons has been widely reported to be involved in nestmate recognition in insects. However, recent studies have shown that polar compounds (mainly peptides) are also present, mixed with hydrocarbons, on the cuticle of various insects, including the paper wasps of the genus Polistes. As these polar compounds are variable among Polistes species and are perceived by the wasps, this cuticular fraction could also be involved in nestmate recognition. Through MALDI-TOF (Matrix-Assisted Laser Desorption Ionization Time of Flight) mass spectrometry analysis, we assessed, for the first time, the intercolonial variability of the cuticular polar fraction of Polistes dominulus in order to evaluate its reliability as source of nestmate recognition cues. We then tested through behavioral assays the importance of the 2 isolated fractions (apolar and polar) in nestmate recognition by presenting them separately to colonies of P. dominulus. Our results showed that the cuticular polar compounds are not colony specific and they are not used by paper wasps to discriminate nestmates from non-colony members. On the contrary, we confirmed that the isolated cuticular hydrocarbons are the chemical mediators prompting nestmate recognition in paper wasps.
- Published
- 2011
- Full Text
- View/download PDF
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