Morphometric characteristics of sheep and goat fed silage comprising of cassava peel, gamba grass and Mexican sunflower

The constant demand for less expensive and more easily available alternative feed sources for animal production is on the increase. This is particularly true in the tropics, where feed availability varies according to the season. Based on this necessity, this study aims to evaluate the impact of feeding silage to sheep and goats on growth and development. A total of 22 animals comprising of 11 Yankassa breed and 11 West African Dwarf breed were used for the study. The animals were confined and allowed to acclimatize to the environment for about 14 to 21 days, followed by 5 weeks of study. The forage used for silage was Gamba grass (Andropogon gayanus) and Mexican sunflower (Tithonia diversifolia) mixed with equal amounts of cassava peel and molasses in different proportions for three different treatments. Body length, neck circumference, height at withers, heart girth, and body weight were significantly higher (p<0.05) in animals fed T3 diets compared to all other diets, while animals on the T2 diet had higher ear length than T3. Except for neck circumference, ear length, and bodyweight of animals raised on diet T1 and the control group were statistically similar, all the test groups were significantly better than the control group in terms of performance. The highest body weight of 16.74 kg was recorded in T3, followed by 15.97 kg in T2, 12.12 kg in T1, and the least value of 10.09 kg in the control group. No apparent adverse effects were noted in the feeding of silage to the animals as the animals were healthy throughout the duration of the study. More research on the use of silage in feeding indigenous goat and sheep breeds is needed to further understand the impact of silage on animal performance and morphometric traits.

Prediction of body weight from linear body measurement in two breeds of cattle

The study compared live weight and linear body measurements of two breeds of cattle (White Fulani and Muturu Cattle) and regressed linear body measurements on live weight. A total of eighty-six cattle of forty-three per a breed were reared at the cattle production unit of the Teaching and Research Farm, Akwa Ibom State University – Obio Akpa Campus, Nigeria in a semi intensive management system. Parameters measured were; live weight (LW), face length (FCL), head circumference (HC), ear length (EL), neck length(NL), neck circumference(NC), height at wither(HW), body length(BL), body circumference(BC), hind limb(HL), fore limb(FL), and tail length(TL). The data obtained were subjected to statistical analysis for morphometric traits and prediction was done through linear model regression method using SPSS statistical software package. Breed of cattle significantly (P>0.05) affected all linear body measurements and live weight exception of NL .Linear body Parameters of both breeds were compared. The mean live weight of White Fulani and Muturu were 251.28kg and 149.81kg, respectively. Means of FL, EL, NL, BL, HL, TL and BC, NC and HW of White Fulani were significantly (P<0.01) higher than Muturu breed but the HC of Muturu was significantly (P<0.01) higher than White Fulani breed. Muturu breed had higher R2 of 0.98 in BL and BC than White Fulani breed. In conclusion, White Fulani was considered a larger breed than Muturu cattle. Live weight can be accurately predicted from linear body measurements through BC and BL in both breeds.

Morphometric Analysis as a Tool to Resolve a Taxonomic Complex in Myrcia sect. Calyptranthes (Myrtaceae, Myrteae)

Abstract— Specimens attributed to Myrcia chytraculia and associated species form a complex within M. sect. Calyptranthes, occurring sympatrically throughout the Caribbean and Central America and sharing a continuously variable suite of morphometric traits. To ascertain whether species within this complex should be treated as separate or conspecific taxa, seven morphometric traits and a further two discrete characters are analysed using univariate and multivariate statistics. Leaf size and shape are found to be indicative of subspecies, and significant mean differences of traits can be found between groups, though they overlap throughout the range of the M. chytraculia complex. As a result of these findings, updated taxonomy for this group is proposed, creating the new combinations Myrcia chytraculia var. americana, Myrcia chytraculia var. pauciflora, and M. chytraculia var. zuzygium, as well as seven new synonyms. A distribution map and a key to the new varieties are also included.

Morphometric and morphological characterization of chicken resources adapted to pastoral and agropastoral areas of southern Ethiopia

Thirteen qualitative and six quantitative variables taken from 303 adult chickens (95 cocks and 208 hens) from three locations/districts were used to phenotypically characterize the indigenous chicken populations in pastoral areas of South Omo Zone, Ethiopia. The studied traits were influenced by the effect of location and sex, where chicken populations from Hamer district and females of all districts were the smallest and lightest. Qualitative characteristics of the studied chicken populations such as normal feather morphology and distribution, plain plumage pattern, flat head shape, triangular body shape, and dominant red eye, earlobe and plumage colour suggest that they constitute previously undescribed populations. Chest circumference, wingspan and body length were the three most important morphometric traits used in discriminating the studied chicken populations. On average, 61% of the sampled populations were classified correctly into their respective locations. The multivariate analysis results discriminate the chicken populations into two groups: the Hamer group and the Omo group (chickens from Bena Tsemay and Male districts). However, such grouping should be confirmed and advanced to ecotype level using further genetic characterization studies as the observed phenotypic differences might be due to genetic or environmental variations. Such confirmation is important to design breeding programmes (for sustainable utilization) specific to each ecotype.

Polymorphism of morphometric parameters of the flower and fruit of the Sargent apple tree (Malus sargentii Rehl)

The Sargent apple tree is highly valued for its decorative qualities, it is used in breeding work when developing new ornamental varieties. To assess the breeding potential, as well as planning crosses, information is needed on the variability of the morphometric traits of the apple flower and fruit, as well as the presence of a relationship between these traits. The research was carried out in the laboratory of cultivated plants of the Tsytsin Main Botanical Garden on 12 quantitative traits of flower and fruit. It was found that almost all traits are characterized by a low level of polymorphism of 7-15% (flower diameter - 13.2%, pedicel thickness - 14.9%, peduncle length - 8.3%, fruit length - 4.7%, fruit diameter - 5.7%) or an average level (16-25%), except for the mass of seeds (40%) and the number of seeds in the fruit (33.9%). An inverse correlation was found between the length of the anther and the number of seeds inside the fruit (r = -0.46), as well as strong direct relationships between the diameter of the fruit and the weight of the fruit (r = 0.79) and the diameter of the fruit and the length of the fruit (r = 0, 78). A reliable direct relationship between the group was also revealed: flower length, filament length, pedicel thickness, fruit length, fruit diameter, fruit weight. Keywords: POLYMORPHISM, FLOWERS, CRABAPPLES, SORBOMALUS, MALUS SARGENTII, SARGENT APPLE TREE

Agro-morphological traits-based genetic diversity assessment in Ethiopian barley (Hordeum vulgare L.) landrace collections from Bale highlands, Southeast Ethiopia

Background Cultivated barley (Hordeum vulgare L.) is one of the world’s important cereal crops. Ethiopia is claimed to be the centre of origin due to its high phenotypic diversity and flavonoid patterns. It is widely cultivated on subsistence bases and important in supporting the livelihood of local poor. However, the local landraces are currently under threat of severing genetic erosion. Hence, assessing the extents of its genetic diversity is timely in improvement and conservation. Methodology 120 representative cultivated barley landraces have been collected from Bale highlands, Ethiopia, and tested at two locations using alpha lattice design. Data were collected on 21 agro-morphometric traits and analysed using MINITAB 19, SAS 9.4 and FigTree v1.4.3. Results Most morphotypes in each of the qualitative traits considered and mean performance values in most of the quantitative traits revealed wide range of variations suggesting existence of phenotypic diversity among the landraces. Analysis of variance also showed significant variations among the landraces. All the traits, except days to maturity and plant height showed a significant variation for location and treatment-location interactions revealing the high impact of environmental conditions on the variations. Estimates of the variance components also revealed a wider range of variations in most of the traits considered with eventual medium to low genotypic (GCV), phenotypic (PCV) and genotype–environment coefficients of variation (GECV). Estimates of heritability in broad sense (H2) is low (< 40%) in all the traits except in days to maturity. Grouping of the landraces showed poor geographic areas of collection-based pattern suggesting extensive gene flow among the areas. Conclusion The landraces evaluated in the present study showed high morphological diversity. However, the effect of environment factor is pronounced and thus, multiple locations and years with large number of samples must be considered to exploit the available genetic-based variations for breeding and conservation of the crop.

Differentiation of the indigenous goat populations in Ethiopia based on morphometric features and zoometric indices: The primary step for conservation

This study was conducted to describe the indigenous goat populations of South Gondar, Ethiopia based on morphometric traits and body indices. To this effect, morphometric measurements were taken from 512 goats (153 male and 359 female) of both sexes drawn from three districts (Farta, Fogera and Libokemkem). Twenty structural indices were computed from morphometric measurements. Results indicated that age at first kidding and kidding intervals was 13.6 and 8.39 months, respectively, with an average litter size of 1.54 kids. Sex affected (p<0.001) all quantitative traits except ear length (EL), rump width (RW) and fore canon circumference (FCC) being higher in bucks than in does. The effect of age was significant (p<0.001) for all morphometric traits except for EL resulting in a linear increase with advancing age in both sexes. Except for EL and scrotal circumferences (SC), all quantitative traits were (p<0.01) affected by district of the goats rearing. Accordingly, Fogera goats had higher live weight (LW), heart girth (HG), height at withers (HW), body length (BL), chest width (CW), rump height (RH), rump length (RL) and teat length (TL) than those of Libokemkem. Fogera goats had also the highest LW and HG compared with those of Farta. Conversely, the Farta goats had higher RW, BL, TL, RL, CW, chest depth (CD), and paunch girth (PG) than those of Libokemkem. Libokemkem goats were inferior in most of the studied morphometric traits. Both HG and HW variables were identified as best predictors of LW in both sexes. Structural indices indicated that the goat populations could be characterized as meat phenotype with short legs being well adapted to midland altitudes. In conclusion, goats reared in the region could have a genetic potential for meat production with very good prolificacy. The Fogera goats were particularly better in most morphometric traits indicating their suitability for commercial meat production. However, further on-station research is recommended to verify their potentials as meat animals for enhanced food security in the region.

Phenotypic plasticity in Barilius vagra (Hamilton, 1822) (Teleostei: Danionidae) from two geographically distinct river basins of Indian Himalaya

Truss-based morphometric analysis was used to examine phenotypic plasticity of Barilius vagra (Hamilton, 1822) inhabiting the tributaries of the Alaknanda (Ganga River basin) and Chenab (Indus River basin), two geographically distinct river basins in the Indian Himalaya. Fourteen landmarks were connected to generate a truss network of 90 parameters on the body of fish. Eighty morphometric traits out of ninety morphometric measurements explained statistically significant difference among six sampling locations of Barilius vagra from streams in the Alaknanda and Chenab basins. Discriminant function analysis revealed 82% of Barilius vagra specimens originally classified into their own groups. 95% of the variance was explained by 13 principal components. Morphometric characters (1–6, 1–13, 2–5, 2–6, 2–14, 3–6, 4–6, 4–14, 6–12, 7–8, 7–9, 10–11, and 13–14) contributed greatly in differentiation of B. vagra populations from different river basins. The Alaknanda basin reflected some mixing within populations, which may be due to common environmental conditions and fish migration in these streams. This study will be helpful in framing site-specific conservation and management strategies, such as net mesh size selection, avoiding overexploitation, stock augmentation and food availability for different fish populations.

Morphometric Traits and iPBS Based Molecular Characterizations of Walnut (Juglans regia L.) Genotypes

In this study, walnut genotypes that selected during two growing seasons among thousands of seedlings were analyzed in terms of detailed morphometric, phenological, and chemical traits. A multivariate analysis was conducted with valuable traits for breeding and selection such as morphometric traits, chemical composition, and phenological characteristics. Also, genotypes were characterized by a retrotransposon-based iPBS marker system. The correlation analysis showed significant positive and negative correlations between agro-morphological characters. The principal component analysis explained 71.44% of the total variance into five main components. Principal component and hierarchical cluster analysis divided genotypes into three groups, whose subgroups were identified based on both agro-morphological characters and iPBS marker systems. A high level of polymorphism ratio was observed for tested markers. Mantel’s test demonstrated relatively low correlations between molecular and morphological treats (r=0.04). The genetic similarities among all individuals ranged from 0.39 (between 018 and 015 or 045 genotypes) to 0.98 (between 090 and 094 genotypes) with a mean similarity of 0.67. Remarkable phenotypic and molecular variations were observed among the genotypes. The features of some investigated genotypes were above the acceptable thresholds for walnut selection in breeding programs and our study indicated that iPBS markers can be beneficial in walnut breeding programs, allowing the evaluation of the genetic relationship between genotypes, helping to differentiate and select the best genotypes to improve agronomic properties.