Skull size and shape variation in Psammomys spp. (Rodentia, Gerbillinae) from Tunisia, with emphasis on the impact of allometric variation on species recognition

We analysed patterns of skull size and shape variation among populations of the Common wall lizard (Podarcis muralis) in the Central Balkans, particularly the effecs of insularity and the presence of the ecologically similar lacertid lizard species P. melisellensis. Two components of shape variation were analysed – size dependent (allometric) and size independent shape changes. The observed shape differentiation relating to insularity was greatly size-dependent and concordant to allometric shape changes which explained over 20% of variation in the skull shape in the analysed sample. The explorative analysis of size-independent shape changes revealed that populations of P. muralis which share habitat with P. melisellensis diverge from populations which do not share habitat with potentially competing species. These changes related to the general shortening and widening of the skull and increase of the jaw adductor muscle chambers were more pronounced in males. We suppose that the observed pattern of shape changes is driven by competition among species (character displacement) and, possibly, is further modified by heterospecific aggression and trophic shift.

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Divergence in size, but not in shape: variation in skull size and shape withinOmmatotritonnewts

Acta Zoologica ◽

10.1111/azo.12092 ◽

2014 ◽

Vol 96 (4) ◽

pp. 478-486 ◽

Cited By ~ 3

Author(s):

Nazan Üzüm ◽

Ana Ivanović ◽

Çiçek Gümüş ◽

Aziz Avcı ◽

Kurtuluş Olgun

Keyword(s):

Shape Variation ◽

Size And Shape ◽

Skull Size

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The assessment of the impact of mask pattern shape variation on the OPC-modeling by using SEM-Contours from wafer and mask

10.1117/12.879030 ◽

2011 ◽

Author(s):

Daisuke Hibino ◽

Yutaka Hojyo ◽

Hiroyuki Shindo ◽

Thuy Do ◽

Aasutosh Dave ◽

...

Keyword(s):

Mask Pattern ◽

Shape Variation ◽

Pattern Shape ◽

The Impact

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The impact of Radial and Quasi-Radial IMF on the Earth’s Magnetopause Size and Shape, and Dawn-Dusk Asymmetry from Global 3D Kinetic Simulations

10.1002/essoar.10505848.1 ◽

2021 ◽

Author(s):

Suleiman Baraka

Keyword(s):

Size And Shape ◽

The Impact

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Reproductive-cycle plasticity in yellow-cedar (Chamaecyparisnootkatensis)

Canadian Journal of Forest Research ◽

10.1139/x91-192 ◽

1991 ◽

Vol 21 (9) ◽

pp. 1360-1364 ◽

Cited By ~ 8

Author(s):

Y. A. El-Kassaby ◽

J. Maze ◽

D. A. MacLeod ◽

S. Banerjee

Keyword(s):

Reproductive Cycle ◽

Vancouver Island ◽

Significant Delay ◽

Continue Development ◽

Cold Temperatures ◽

Size And Shape ◽

Seed Extraction ◽

Fresh Pollen ◽

The Impact

In 1987, a study was initiated to determine the properties of seed from apparently premature cones of yellow-cedar (Chamaecyparisnootkatensis (D. Don) Spach) on southwestern Vancouver Island. After pollination with fresh pollen in February, all cones showed signs of maturation (i.e., drying and shedding) by December. Samples of these 1-year-old cones were collected for seed extraction and germination tests. Germination ranged between 10 and 42% for isolated cones (i.e., bagged) and between 0 and 25% for unisolated cones. Similar germination results were obtained for the 1988 and 1989 cone crops. Anatomical observations revealed that the 10-month-old embryos were similar in both size and shape to embryos from 2-year-old seeds. It was concluded that transplanting yellow-cedar trees to warmer, low-elevation sites enabled seed cones to continue development without significant delay caused by dormancy induced by cold temperatures at higher elevations. This alteration of normal phenology reflects the impact of environmental contingencies on development.

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Inter- and intraspecific variation in the Artibeus species complex demonstrates size and shape partitioning among species

PeerJ ◽

10.7717/peerj.11777 ◽

2021 ◽

Vol 9 ◽

pp. e11777

Author(s):

Brandon P. Hedrick

Keyword(s):

Species Complex ◽

Niche Partitioning ◽

Fruit Size ◽

Interspecific Variation ◽

Cranial Morphology ◽

Foraging Strategies ◽

Shape Variation ◽

Size And Shape ◽

Ecological Resources ◽

Artibeus Lituratus

Neotropical leaf-nosed bats (family Phyllostomidae) are one of the most diverse mammalian families and Artibeus spp. is one of the most speciose phyllostomid genera. In spite of their species diversity, previous work on Artibeus crania using linear morphometrics has uncovered limited interspecific variation. This dearth of shape variation suggests that differences in cranial morphology are not contributing to niche partitioning across species, many of which are often found in sympatry. Using two-dimensional geometric morphometric methods on crania from eleven species from the Artibeus species complex, the current study demonstrates substantial cranial interspecific variation, sexual size and shape dimorphism, and intraspecific geographic variation. The majority of species were shown to have a unique size and shape, which suggests that each species may be taking advantage of slightly different ecological resources. Further, both sexual size and shape dimorphism were significant in the Artibeus species complex. Male and female Artibeus are known to have sex specific foraging strategies, with males eating near their roosts and females feeding further from their roosts. The presence of cranial sexual dimorphism in the Artibeus species complex, combined with previous work showing that different fruit size and hardness is correlated with different cranial shapes in phyllostomids, indicates that the males and females may be utilizing different food resources, leading to divergent cranial morphotypes. Additional field studies will be required to confirm this emergent hypothesis. Finally, significant geographical shape variation was found in a large intraspecific sample of Artibeus lituratus crania. However, this variation was not correlated with latitude and instead may be linked to local environmental factors. Additional work on ecology and behavior in the Artibeus species complex underlying the morphological variation uncovered in this study will allow for a better understanding of how the group has reached its present diversity.

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The impact of allometry on vomer shape and its implications for the taxonomy and cranial kinesis of crown-group birds

10.1101/2020.07.02.184101 ◽

2020 ◽

Author(s):

Olivia Plateau ◽

Christian Foth

Keyword(s):

Anterior Part ◽

Correct Identification ◽

Temporal Region ◽

Shape Variation ◽

Crown Group ◽

Multivariate Statistical ◽

Morphological Differences ◽

Cranial Kinesis ◽

The Impact ◽

Shape Data

AbstractCrown birds are subdivided into two main groups, Palaeognathae and Neognathae, that can be distinguished, among others, by the organization of the bones in their pterygoid-palatine complex (PPC). Shape variation to the vomer, which is the most anterior part of the PPC, was recently analysed by Hu et al. (2019) with help of geometric morphometrics to discover morphological differences between palaeognath and neognath birds. Based on this study, the vomer was identified as sufficient to distinguish the two main groups (and even more inclusive neognath groups) and their cranial kinetic system. As there are notable size differences between the skulls of palaeognaths and neognaths, we here investigate the impact of allometry on vomeral shape and its implication for taxonomic classification by re-analysing the data of the previous study. Different types of multivariate statistical analyses reveal that taxonomic identification based on vomeral shape is strongly impaired by allometry, as the error of correct identification is high when shape data is corrected for size. This finding is evident by a great overlap between palaeognath and neognath subclades in morphospace. The correct identification is further influenced by the convergent presence of a flattened vomeral morphotype in multiple neognath subclades. As the evolution of cranial kinesis has been linked to vomeral shape in the original study, the existing correlation between shape and size of the vomer across different bird groups found in the present study questions this conclusion. In fact, cranial kinesis in crown birds results from the loss of the jugal-postorbital bar in the temporal region and ectopterygoid in the PPC and the combination of a mobilized quadrate-zygomatic arch complex and a flexible PPC. Therefore, we can conclude that the vomer itself is not a suitable proxy for exploring the evolution of cranial kinesis in crown birds and their ancestors.

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