Your search keyword '"Fusco, Giuseppe"' showing total 6 results

1. Positional specification in the segmental growth pattern of an early arthropod

Author

Fusco, Giuseppe, Hong, Paul S., and Hughes, Nigel C.

Published

2014

2. Larval growth and allometry in the cabbage butterfly Pieris brassicae (Lepidoptera: Pieridae).

Author

Springolo, Arianna, Rigato, Emanuele, and Fusco, Giuseppe

Subjects

ALLOMETRY, CABBAGE, LEPIDOPTERA, REGULATION of growth, EXPERIMENTAL design

Abstract

By adopting a longitudinal study design and through geometric morphometrics methods, we investigated individual and ontogenetic variation in size, shape and timing during larval development of the cabbage butterfly Pieris brassicae under laboratory conditions. We found that ontogenetic size progression departs modestly, but significantly, from growth at a constant rate and that size at hatching contributes considerably to determine the size of the individual at all subsequent stages. As for the shape, ontogenetic allometry is much more conspicuous than static allometry, the latter in many cases being close to isometry. Analysis of developmental timing revealed a stage of apparently more effective developmental control at stage 3, supported by both the relatively small variance in cumulative developmental time up to stage 3 and by the pattern of correlation between duration of single stages. While presenting detailed quantitative aspects of growth in P. brassicae, in particular with respect to individual variation, this study and the associated dataset can provide a basis for further explorations of the post‐embryonic development in this insect and contribute to the ongoing investigations on growth regulation and control in insects. [ABSTRACT FROM AUTHOR]

Published

2021

3. No limits: Breaking constraints in insect miniaturization.

Author

Minelli, Alessandro and Fusco, Giuseppe

Subjects

*ARTHROPODA, *MORPHOLOGY, *ALLOMETRY, *ANUCLEATE cells, *EMBRYOLOGY, *INSECTS

Abstract

Abstract Small arthropods are not simply scaled-down versions of their larger closest relatives, as changes in morphology and functional characters are largely governed by scaling laws. These same scaling laws set strict limits to size change toward smaller sizes. The evolution of extreme miniaturized forms involves the breaking of these constraints, by means of design innovations that allow evolutionary change to evade the limits posed by scaling laws. Here we review several cases studies in insects and other arthropods that illustrate this evolutionary path. We examine morphologies commonly recurring in miniaturized forms but not exclusive to them, morphologies exclusive to miniaturized forms and novel functional solutions supported by unconventional morphologies. We also discuss miniaturization and its evolvability taking into consideration arthropod postembryonic development and modular body organization. The modification of features commonly supposed not to change appears as a recurring pattern in arthropod miniaturization. Highlights • The properties of scaling laws set strict limits to size change toward smaller size. • Evolution of extreme miniaturized forms involves the breaking of these constraints. • Miniaturized arthropods evolved unconventional morphologies including anucleate cells. • Some unconventional morphologies are associated with novel functional solutions. • Some modifications involve body modularity throughout postembryonic development. [ABSTRACT FROM AUTHOR]

Published

2019

4. Temperature-induced phenotypic plasticity in the ovipositor of the invasive species Drosophila suzukii.

Author

Clemente, Maria, Fusco, Giuseppe, Tonina, Lorenzo, and Giomi, Folco

Subjects

*DROSOPHILA suzukii, *PHENOTYPIC plasticity, *PHYSIOLOGICAL effects of temperature, *INTRODUCED species, *BODY size, *ALLOMETRY, *MORPHOMETRICS, *GENETICS

Abstract

Drosophila suzukii (Matsumura, 1931) is a highly successful invasive dipteran which represents a serious threat for global fruit industry. Among other adaptive traits, D. suzukii owes its success to the derived morphological features of its ovipositor, which allows the insect to exploit the exclusive ecological niche of fresh fruit, thus avoiding competition with other closely related species. With the aim of investigating temperature-induced phenotypic plasticity of D. suzukii ovipositor, we reared this insect in four different laboratory conditions, represented by the combination of two developmental temperatures and two diet regimes for the larvae. We recorded the effects of these two factors on ovipositor size and shape and overall body size through a combination of distance-based and geometric morphometric analyses. Results showed that insects attain the largest body sizes at lower temperature, whereas the diet does not determine significant difference in size. However, the effect on size of the two factors is less pronounced in the ovipositor, which shows a negative allometry with respect to body size in all treatments. At higher temperature, ovipositor shape tends also to co-vary with its own size. Neither temperature nor diet have significant effect on ovipositor bilateral fluctuating asymmetry. These results confirm the hypothesis that in D. suzukii the toughened valve of the ovipositor are subjected to effective morpho-functional constraints, while probably being under strong selection by reason of their mechanical role. [ABSTRACT FROM AUTHOR]

Published

2018

5. Shape variation of prey-catching structures in geophilomorph centipedes: A preliminary investigation using geometric morphometrics.

Author

Baiocco, Matteo, Bonato, Lucio, Cardini, Andrea, and Fusco, Giuseppe

Subjects

CENTIPEDES, SOIL ecology, MORPHOMETRICS, ALLOMETRY in plants, PLANT ecology

Abstract

Geophilomorph centipedes are common arthropod soil predators, but very little is known about their preying behaviour and their diet. Here we develop an exploratory morpho-functional approach to better understand their feeding habits, based on the morphology of feeding-related structures. Through geometric morphometrics, in a sample of five geophilomorph species, we investigated morphological variation in the three most conspicuous component structures of their prey-catching apparatus. At intra-specific level, we found no strong evidence for sexual dimorphism, left-right directional asymmetries and allometry across adult stages. At inter-specific level, shape differences in the feeding apparatus among the sample species were highly significant and large, even between two congeneric species. We also found a significant covariation between the shapes of the three structures, including those that do not directly articulate with each other, suggesting some degree of morphological integration between the different structures of the prey-catching apparatus. This study suggests the effectiveness and power of geometric morphometrics for the quantitative study of centipede functional morphology and provides a basis for wider comparative investigations on their phenotypic evolution. [ABSTRACT FROM AUTHOR]

Published

2017

6. Multi-scale relationships between numbers and size in the evolution of arthropod body features

Author

Minelli, Alessandro, Maruzzo, Diego, and Fusco, Giuseppe

Subjects

*ARTHROPODA anatomy, *ALLOMETRY, *INSECT development, *PHYLOGENY, *DEVELOPMENTAL genetics, *META-analysis

Abstract

Abstract: Size-related changes of form in animals with periodically patterned body axes and post-embryonic growth discontinuously obtained throughout a series of moulting episodes cannot be accounted for by allometry alone. We address here the relationships between body size and number and size of appropriately selected structural units (e.g., segments), which may more or less closely approximate independent developmental units, or unitary targets of selection, or both. Distinguishing between units fundamentally involving one cell only or a small and fixed number of cells (e.g., the ommatidia in a compound eye), and units made of an indeterminate number of cells (e.g., trunk segments), we analyze and discuss a selection of body features of either kind, both in ontogeny and in phylogeny, through a review of current literature and meta-analyses of published and unpublished data. While size/number relationships are too diverse to allow easy generalizations, they provide conspicuous examples of the complex interplay of selective forces and developmental constraints that characterizes the evolution of arthropod body patterning. [ABSTRACT FROM AUTHOR]

Published

2010