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1.
Trop Anim Health Prod ; 55(1): 20, 2022 Dec 21.
Article in English | MEDLINE | ID: mdl-36542167

ABSTRACT

The aim of the present study was to evaluate the efficiency of selection for body growth and its association with carcass and meat quality traits in the red-winged tinamou. Two experimental groups were selected based on the selection index: selection group with a higher index (TinamouS) and commercial group with a lower index (TinamouC). Weight at 180 days and slaughter weight were significantly higher (p < 0.05) in the TinamouS group, as were hot carcass weight, skinless breast weight, wing weight, and thigh and drumstick weight. The meat quality traits or sensory attributes did not differ significantly (p > 0.05) between groups. A significant positive correlation (0.59; p < 0.05) was found between shear force and chewability and a significant negative correlation (- 0.59; p < 0.05) between aroma intensity and strange aroma. The present study suggests that the selection index promotes greater body growth and preserves meat quality and sensory traits in red-winged tinamou.


Subject(s)
Meat , Palaeognathae , Animals , Body Composition , Meat/analysis , Meat/standards , Muscles/physiology , Palaeognathae/growth & development , Phenotype
2.
PLoS Biol ; 17(10): e3000448, 2019 10.
Article in English | MEDLINE | ID: mdl-31577791

ABSTRACT

The development of an organism involves the formation of patterns from initially homogeneous surfaces in a reproducible manner. Simulations of various theoretical models recapitulate final states of natural patterns, yet drawing testable hypotheses from those often remains difficult. Consequently, little is known about pattern-forming events. Here, we surveyed plumage patterns and their emergence in Galliformes, ratites, passerines, and penguins, together representing the three major taxa of the avian phylogeny, and built a unified model that not only reproduces final patterns but also intrinsically generates shared and varying directionality, sequence, and duration of patterning. We used in vivo and ex vivo experiments to test its parameter-based predictions. We showed that directional and sequential pattern progression depends on a species-specific prepattern: an initial break in surface symmetry launches a travelling front of sharply defined, oriented domains with self-organising capacity. This front propagates through the timely transfer of increased cell density mediated by cell proliferation, which controls overall patterning duration. These results show that universal mechanisms combining prepatterning and self-organisation govern the timely emergence of the plumage pattern in birds.


Subject(s)
Galliformes/genetics , Models, Statistical , Palaeognathae/genetics , Passeriformes/genetics , Pigmentation/genetics , Spheniscidae/genetics , Animals , Color , Embryo, Nonmammalian , Feathers/cytology , Feathers/growth & development , Feathers/metabolism , Galliformes/anatomy & histology , Galliformes/classification , Galliformes/growth & development , Inheritance Patterns , Morphogenesis/genetics , Palaeognathae/anatomy & histology , Palaeognathae/classification , Palaeognathae/growth & development , Passeriformes/anatomy & histology , Passeriformes/classification , Passeriformes/growth & development , Phylogeny , Skin/cytology , Skin/growth & development , Skin/metabolism , Spheniscidae/anatomy & histology , Spheniscidae/classification , Spheniscidae/growth & development
3.
Zootaxa ; 4032(5): 493-514, 2015 Oct 20.
Article in English | MEDLINE | ID: mdl-26624382

ABSTRACT

The extinct Lithornithidae include several genera and species of flying palaeognathous birds of controversial affinities known from the Early Paleogene of North America and Europe. An almost complete, articulated skeleton from the Early Eocene marine deposits of the Fur Formation (Denmark) was recently assigned to Lithornis vulturinus Owen, 1840. This study provides a detailed redescription and comparison of this three-dimensionally preserved specimen (MGUH 26770), which is one of the best preserved representatives of the Lithornithidae yet known. We suggest that some new features might be diagnostic of Lithornis vulturinus, including a pterygoid fossa shallower than in other species of Lithornis and the presence of a small caudal process on the os palatinum. We propose that Lithornis nasi (Harrison, 1984) is a junior synonym of Lithornis vulturinus and we interpret minor differences in size and shape among the specimens as intraspecific variation. To date, Lithornis vulturinus is known with certainty from the latest Paleocene-earliest Eocene to Early Eocene of the North Sea Basin (Ølst, Fur and London Clay Formations). Among the four species of the genus Lithornis, the possibility that Lithornis plebius Houde, 1988 (Early Eocene of Wyoming) is conspecific with either Lithornis vulturinus or Lithornis promiscuus Houde, 1988 (Early Eocene of Wyoming) is discussed. The presence of closely related species of Lithornis on either side of the North Atlantic in the Early Eocene reflects the existence of a high-latitude land connection between Europe and North America at that time.


Subject(s)
Palaeognathae/anatomy & histology , Palaeognathae/classification , Animal Structures/anatomy & histology , Animal Structures/growth & development , Animals , Body Size , Denmark , Fossils/anatomy & histology , Organ Size , Palaeognathae/growth & development
4.
PLoS One ; 9(6): e99929, 2014.
Article in English | MEDLINE | ID: mdl-24923666

ABSTRACT

BACKGROUND: The analysis of growth in extinct organisms is difficult. The general lack of skeletal material from a range of developmental states precludes determination of growth characteristics. For New Zealand's extinct moa we have available to us a selection of rare femora at different developmental stages that have allowed a preliminary determination of the early growth of this giant flightless bird. We use a combination of femora morphometrics, ancient DNA, and isotope analysis to provide information on the identification, classification, and growth of extinct moa from the genus Euryapteryx. RESULTS: Using ancient DNA, we identify a number of moa chick bones for the species Euryapteryx curtus, Dinornis novaezealandiae, and Anomalopteryx didiformis, and the first chick bone for Pachyornis geranoides. Isotope analysis shows that ∂15N levels vary between the two known size classes of Euryapteryx, with the larger size class having reduced levels of ∂15N. A growth series for femora of the two size classes of Euryapteryx shows that early femora growth characteristics for both classes are almost identical. Morphometric, isotopic, and radiographic analysis of the smallest Euryapteryx bones suggests that one of these femora is from a freshly hatched moa at a very early stage of development. CONCLUSION: Using morphometric, isotopic, and ancient DNA analyses have allowed the determination of a number of characteristics of rare moa chick femora. For Euryapteryx the analyses suggest that the smaller sized class II Euryapteryx is identical in size and growth to the extant Darwin's rhea.


Subject(s)
DNA, Mitochondrial/analysis , Palaeognathae/classification , Palaeognathae/growth & development , Palaeognathae/genetics , Animals , Birds/anatomy & histology , Birds/classification , Birds/genetics , Birds/growth & development , Bone Development , Bone and Bones/anatomy & histology , Bone and Bones/diagnostic imaging , Cloning, Molecular , DNA, Mitochondrial/genetics , Environment , New Zealand , Palaeognathae/anatomy & histology , Paleontology , Radiography , Radiometric Dating , Sequence Analysis, DNA
5.
Zoo Biol ; 32(5): 541-8, 2013.
Article in English | MEDLINE | ID: mdl-24018906

ABSTRACT

Avian growth rate patterns represent a trade off between a tissue's functional maturity and its capacity for growth. At the time of hatch, the brown kiwi (Apteryx mantelli) limb has a high level of maturity in order for the chick to be able to kick its way out of the shell and walk and forage independently from an early age. Growth curves of limb segments, bill length and bodyweight are presented for captive-reared, BNZ Operation Nest Egg™ chicks over a period of 3 months from the point of hatch. Some parameters were slightly larger in the females than in males at time of hatch, including the bill length. Growth in bodyweight began to slow earlier in males than in females. Regressions of limb and bill measurements over time showed linear patterns of growth instead of a sigmoidal curve as seen in other birds, probably due to the short period of observation. Bodyweight and bill length were then compared to these morphometrics in a wild population of kiwi. Captive-reared chicks were found to hatch with shorter bills and to increase in bodyweight at a faster rate than the wild birds. Rapid weight gain has been implicated in developmental limb deformities in other precocial and long-legged birds and should be avoided in captive kiwi.


Subject(s)
Animals, Zoo , Body Size/physiology , Palaeognathae/growth & development , Age Factors , Animals , Beak/growth & development , Body Weights and Measures , Female , Male , Sex Factors
6.
Biol Lett ; 5(5): 639-42, 2009 Oct 23.
Article in English | MEDLINE | ID: mdl-19515655

ABSTRACT

The presence of bone growth marks reflecting annual rhythms in the cortical bone of non-avian tetrapods is now established as a general phenomenon. In contrast, ornithurines (the theropod group including modern birds and their closest relatives) usually grow rapidly in less than a year, such that no annual rhythms are expressed in bone cortices, except scarce growth marks restricted to the outer cortical layer. So far, cyclical growth in modern birds has been restricted to the Eocene Diatryma, the extant parrot Amazona amazonica and the extinct New Zealand (NZ) moa (Dinornithidae). Here we show the presence of lines of arrested growth in the long bones of the living NZ kiwi (Apteryx spp., Apterygidae). Kiwis take 5-6 years to reach full adult body size, which indicates a delayed maturity and a slow reproductive cycle. Protracted growth probably evolved convergently in moa and kiwi sometime since the Middle Miocene, owing to the severe climatic cooling in the southwest Pacific and the absence of mammalian predators.


Subject(s)
Bone Development , Palaeognathae/growth & development , Animals , Diaphyses/anatomy & histology , Diaphyses/growth & development , New Zealand , Palaeognathae/anatomy & histology , Time Factors
7.
Nature ; 435(7044): 940-3, 2005 Jun 16.
Article in English | MEDLINE | ID: mdl-15959513

ABSTRACT

Cyclical growth marks in cortical bone, deposited before attainment of adult body size, reflect osteogenetic changes caused by annual rhythms and are a general phenomenon in non-avian ectothermic and endothermic tetrapods. However, the growth periods of ornithurines (the theropod group including all modern birds) are usually apomorphically shortened to less than a year, so annual growth marks are almost unknown in this group. Here we show that cortical growth marks are frequent in long bones of New Zealand's moa (Aves: Dinornithiformes), a recently extinct ratite order. Moa showed the exaggerated K-selected life-history strategy formerly common in the New Zealand avifauna, and in some instances took almost a decade to attain skeletal maturity. This indicates that reproductive maturity in moa was extremely delayed relative to all extant birds. The two presently recognized moa families (Dinornithidae and Emeidae) also showed different postnatal growth rates, which were associated with their relative differences in body size. Both species of giant Dinornis moa attained their massive stature (up to 240 kg live mass) by accelerating their juvenile growth rate compared to the smaller emeid moa species, rather than by extending the skeletal growth period.


Subject(s)
Aging/physiology , Bone Development , Palaeognathae/anatomy & histology , Palaeognathae/growth & development , Animals , Body Size , Calcification, Physiologic , New Zealand , Phylogeny , Sexual Maturation , Time Factors
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