Your search keyword '"morphological traits"' showing total 3,112 results

1. Shrinkage and tree-based regression methods for the prediction of the live weight of Akkaraman sheep using morphological traits.

Author

Ozen, Hulya, Ozen, Dogukan, Kocakaya, Afsin, and Ozbeyaz, Ceyhan

Abstract

The prediction of live weight (LW) is of critical importance to farmers in a range of applications, including breeding and monitoring animal growth. In this context, Ridge, Least Absolute Shrinkage and Selection Operator (LASSO), and Elastic Net as shrinkage methods, and Classification and Regression Trees (CART) and Random Forest (RF) as tree-based regression methods were used in this study to predict LW of Akkaraman Sheep at 6-month age using sex, birth weight (BW) and some morphological traits such as withers height (WH), chest depth (CD), body length (BL), chest width (CW), rump height (RH), and chest circumference (CC). The dataset of 100 sheep, consisting of 44 males and 56 females, was randomly divided into training and test sets with a ratio of 80% and 20%, respectively. 10-fold cross-validation method was implemented using the training set to obtain optimum regression models and avoid overfitting. A test set was used to compare the prediction performance of regression methods based on various comparison criteria. Results revealed that LW was significantly correlated with all morphological traits and BW with coefficients ranging from 0.216 to 0.757. RF outperformed the other regression models with a coefficient of determination value (R2) of 0.865, followed by Ridge (R2 = 0.761), LASSO (R2 = 0.755), Elastic Net (R2 = 0.750), and CART (R2 = 0.654). The results indicated that WH and CD contributed the most, while sex and BW contributed the least in constructing the optimum RF model. In conclusion, the use of RF is recommended for predicting the LW of Akkaraman sheep. These results can provide a data-driven approach to improve decision-making in animal breeding. [ABSTRACT FROM AUTHOR]

Published

2024

2. Different concentrations of silver nanoparticles trigger growth, yield, and quality of strawberry (Fragaria ananassa L.) fruits.

Author

Shahzad, Umbreen, Saqib, Muhammad, Jhanzab, Hafiz Muhammad, Abou Fayssal, Sami, Ahmad, Riaz, and Qayyum, Abdul

Subjects

*HORTICULTURAL crops, *SUSTAINABILITY, *STUNTED growth, *PLANT growth, *PLANT defenses, *STRAWBERRIES

Abstract

Background: The application of nanoparticles (NPs) in horticultural crops is in a tremendous increase. NPs help in the overcoming of stresses with positive impacts on plant growth and development. Silver NPs (AgNPs) have numerous pre‐ and postharvest applications in agriculture. Aims and methods: This study aimed to evaluate the effect of AgNPs application (0, 50, 100, 150, and 200 ppm) at three spray intervals (5, 10, and 15 days) on the morphological and compositional traits, and defense system of strawberry. Results: Results showed that AgNPs application enhanced the growth, yield, quality, and nutritional aspects of strawberry grown under field conditions. Shoot fresh weight (20.20 g) and leaf number/plant (41.53) were enhanced at 100 ppm AgNPs and 15 days interval. A stunted growth of strawberry plants was recorded at 200 ppm AgNPs. Moreover, a 15‐day‐spray interval was found optimum for the improvement of major morphological traits. Fruit size, yield, total soluble solids, acidity, and antioxidant capacity were improved at 50 and 100 ppm AgNPs. The activation of plant defense system, that is, superoxide dismutase, peroxidase, catalase, total soluble protein, and ascorbic acid was improved under AgNPs foliar application. The activation of stress indicating marker malondialdehyde outlined a high defense response of strawberry at 150 ppm AgNPs. Conclusions: Conclusively, AgNPs application at 50, 100, and 150 ppm can be considered effective for sustainable strawberry production. [ABSTRACT FROM AUTHOR]

Published

2024

3. A trait‐based understanding of the vulnerability of a Paleotropical moth community to predation by a sympatric bat with flexible foraging strategies.

Author

Dey, Pritha and Balakrishnan, Rohini

Subjects

*DIETARY patterns, *PREY availability, *BODY size, *MOTHS, *BATS, *SPECIES, *PREDATION

Abstract

Prey vulnerability across seasons can be predicted by measuring their morphological traits and availability. Although conventional prey–predator dynamics focus on pairs of prey and predator species, the trait‐based approach allows us to draw inferences at the scale of the entire assemblage.Here, we coupled measurable prey traits with their availability in the study area, to identify the vulnerability of a diverse moth assemblage to predation by the lesser false vampire bat (Megaderma spasma) Chiroptera: Megadermatidae, Linneaus 1758, a bat with flexible foraging strategies, in the Western Ghats biodiversity hotspot of India.We analysed the discarded prey remains from several roosts, collected over 3 years, for seasonal patterns in the diet and selective hunting. Through light‐trapping, we collected moth specimens in different seasons and measured the morphological traits likely to affect their vulnerability to predation, such as body size and evasive flight capability.Our results showed that consumed moth prey diversity varies seasonally, with moths belonging to the Hepialidae family being preferred in the wet season. We found that the larger moth species with lower evasive capabilities are more vulnerable to predation. Sphingid and Hepialid moths, among the most abundant in the diet, have the lowest manoeuvrability and the maximum body size, respectively. By assessing vulnerability at the prey assemblage level, our study sets the stage for future research on moth–bat interactions from the diverse and less‐explored Paleotropical communities. In addition, the study reiterates the usefulness of trait‐based approaches to understanding prey–predator dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

4. Effects of Root Pruning and Size on Growth Traits of Hybrid Poplar Seedlings.

Author

Chang, Xiaochao, Zhang, Jin, Wan, Fangfang, Xian, Lihong, and Liu, Yong

Abstract

Selecting seedlings of varying sizes and effectively managing root pruning are key challenges in transplantation. However, the effects of seedling size and root pruning on transplantation outcomes are not fully understood. This study classified one-year-old Populus 'Beilinxiongzhu-01' seedlings into three size categories based on height: large (308.75 ± 9.66 cm), medium (238.00 ± 7.71 cm), and small (138.92 ± 7.18 cm). In early March of the subsequent year, root pruning was applied with varying intensities based on root collar diameter: low (15 times), medium (7.5 times), and high (3.75 times). A control group without pruning was also included. Over the year, key phenological and morphological traits were monitored. The results showed that (1) root pruning significantly impacted the phenology of seedlings, accelerating root emergence, delaying early leaf phenology, increasing the dieback rate, and postponing end-of-season defoliation. Mortality and the rapid growth phase were not significantly affected. Larger seedlings exhibited earlier end-of-season defoliation and higher dieback rates early in the growing season, while smaller seedlings advanced in early leaf development. (2) Except under low or no pruning, root pruning reduced seedling height (H), diameter at breast height (DBH), and root collar diameter (RCD). However, across all treatments, these indicators remained higher in larger seedlings compared to smaller ones. Under medium- and high-intensity pruning, smaller seedlings exhibited higher relative growth rates and larger leaf areas than larger seedlings, with the reduction in these variables becoming more pronounced as seedlings increased in size. Notably, only larger seedlings demonstrated a reduction in maximum growth rate, suggesting greater vulnerability to root pruning. In summary, root pruning induced significant phenological and morphological differences across seedling sizes. While smaller seedlings showed some response to pruning, larger seedlings experienced more pronounced phenological disruptions and growth inhibition. [ABSTRACT FROM AUTHOR]

Published

2024

5. Comprehensive Evaluation and Selection of Cardamom (Elettaria cardamomum (L.) Maton) Germplasm Using Morphological Traits.

Author

Herrera-González, Martha Patricia, Zamora-Jerez, Alejandra, Cifuentes-Velasquez, Rolando, Arévalo-Rodríguez, Luis Andrés, and Pereira-Lorenzo, Santiago

Subjects

PRINCIPAL components analysis, CARDAMOMS, GERMPLASM, CLUSTER analysis (Statistics), OSCILLATOR strengths

Abstract

Cardamom (Elettaria cardamomum (L.) Maton) plays a crucial role in Guatemala's agriculture, supporting local families and covering 169,429.29 ha (making it the world's leading producer). Since its introduction to Guatemala in 1910, limited research has focused on unraveling the diversity and defining morphological traits critical for selecting excellent accessions. In this study, we examined 17 morphological traits across 288 accessions to identify key features associated with the germplasm. The comprehensive analysis employed principal component analysis, a morphological composite value (F-value), linear regression, and hierarchical clustering. The Shannon–Wiener diversity index ranged from 0.10 to 2.02, indicating the variation in diversity among traits. Principal component analysis and hierarchical clustering revealed six distinct germplasm groups. The comprehensive analysis facilitated the selection of 14 excellent accessions, and the regression equation incorporating criteria such as plant height, capsule color, panicle number per plant, panicle length, rhizome color, cluster number per panicle, cluster node length, and capsule number per cluster to identify cardamom germplasm. To develop a conservation strategy for the two putative foreign varieties ('Malabar' and 'Mysore'/'Vazhukka') introduced in Guatemala based on plant height, another 12 accessions were selected with a second comprehensive evaluation. This information offers insights into cardamom diversity for informed selection enhancing national utilization, productivity, and conservation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Biological responses of an elite centipedegrass [Eremochloa ophiuroides (Munro) Hack.] cultivar (Ganbei) to carbon ion beam irradiation.

Author

Yuan Zhang, Haoran Wang, Yan Du, Ling Zhang, Xiaohui Li, Hailin Guo, Jianxiu Liu, Libin Zhou, Xin Xu, and Jianjian Li

Subjects

ION beams, SUGAR crops, GENETIC polymorphisms, GERMPLASM, CARBON analysis

Abstract

Carbon ion beam irradiation (CIBI) is a highly efficient mutagenesis for generating mutations that can be used to expand germplasm resources and create superior new germplasm. The study investigated the effects of different doses of CIBI (50 Gy, 100 Gy, 150 Gy, 200 Gy and 300 Gy) on seed germination and seedling survival, seedling morphological and physiological traits of an elite centipedegrass cultivar Ganbei. The results showed that irradiation greater than 50 Gy cause inhibition of seed germination, and the semi-lethal dose (LD50) is around 90 Gy for CIBI treated seeds of Ganbei. A carbon ion beam-mutagenized centipedegrass population was generated from Ganbei, with irradiation dosages from 50 Gy to 200 Gy. More than ten types of phenotypic variations and novel mutants with heritable tendencies mainly including putative mutants of stolon number, length and diameter, of internode length, of leaf length and width, of leaf chlorophyll content, of stolon growth rate, of aboveground tissue dry weight, of sward height were identified. While the total sugar content of the plants from irradiated seeds showed no obvious change in all treatments as compared to the control, the crude protein content displayed significant reduction at a high-dose treatment of 200 Gy. Genetic polymorphism was detected in mutagenized centipedegrass population using SSR-PCR analysis, suggesting that CIBI caused alteration of larger fragments of the DNA sequence. As a result, a preliminary batch of mutants was screened in this study. In summary, carbon ion beam mutagenesis is an effective way for developing centipedegrass germplasm with wider variation, and treating seeds with CIBI at a dosage of ~100 Gy could be effective in centipedegrass mutation breeding. [ABSTRACT FROM AUTHOR]

Published

2024

7. Isotopes Complement Morphology: Niche Partitioning Among Greenbuls in the Afrotropical Lowland Forest.

Author

Brlík, Vojtěch, Procházka, Petr, Yohannes, Elizabeth, Sedláček, Ondřej, Albrecht, Tomáš, and Hořák, David

Subjects

*STABLE isotopes, *RAIN forests, *MORPHOLOGY, *PASSERIFORMES, *ISOTOPES

Abstract

Biodiversity plays a vital role in ecosystem functioning, so understanding how species coexist is a cornerstone of ecology. However, despite decades of research, our current knowledge is incomplete due to methodological limitations and sampling bias, particularly in the species‐rich tropics. In this study, we combined bill and body morphological traits with stable isotopes in feathers to quantify niche differentiation among six co‐occurring greenbul taxa, a diverse group of frugivorous and insectivorous passerines with remarkable similarities in body shape, in the lowland rainforests of Mount Cameroon, West‐Central Africa. Our results showed that the greenbul's niche space was primarily differentiated by variations in body morphology, with yellow‐lored bristlebill Bleda notatus and eastern bearded greenbul Criniger chloronotus occupying ecological niches distinct from the remaining four taxa, while bill morphology indicated substantial overlap between the taxa. In addition, isotopic composition of the feathers revealed a separation of western greenbul Arizelocichla tephrolaema from the other taxa. Our results show that the integration of morphological and isotopic data can provide robust estimates of niche overlaps, providing evidence for the differentiation of ecological roles. This highlights the importance of integrating variable traits to improve our understanding of how animals exploit the multidimensional niche space that enables their coexistence. [ABSTRACT FROM AUTHOR]

Published

2024

8. Eco-Morphological Responses of Camponotus japonicus (Hymenoptera: Formicidae) to Varied Climates and Habitats.

Author

Ma, Ruoqing, Zhang, Liangliang, and He, Hong

Subjects

*CLIMATIC zones, *PRINCIPAL components analysis, *CARPENTER ants, *URBAN parks, *HYMENOPTERA, *ANT colonies

Abstract

Simple Summary: Ants are highly adaptable insects that thrive in a variety of climates and habitats worldwide. This study examines how climate and habitat influence the morphological traits of the ant species Camponotus japonicus across 22 sites in mainland China. These sites represent three climate zones and three habitat types. Our analysis shows that both climate and habitat significantly shape the ants' morphological traits. Specifically, ants in mid-temperate farmlands exhibit more constrained morphological traits, while those in sparse woodlands show greater variation. Urban parks present a stable environment with less morphological variation. Temperature, precipitation, humidity, and altitude were found to be closely linked to these morphological traits. This research enhances our understanding of how ants adapt to environmental changes through morphological variation and underscores their critical ecological roles in various ecosystems. Ants are a highly adaptable group of insects that have globally established themselves in diverse climates and habitats. This study investigates the influence of climate and habitat on the morphological traits of Camponotus japonicus across 22 sites in mainland China. These sites span three climate zones (mid-temperate, warm temperate, and subtropical) and three habitat types (urban parks, farmlands, and sparse woodlands). Principal component analysis (PCA) was used to determine the principal axis of morphological variation, while hypervolume analysis and centroid distance calculation were used to verify the environmental filtering hypothesis and the optimal transfer hypothesis. The results support both hypotheses showing that climate and habitat significantly affect the morphological space of C. japonicus workers. In particular, the morphological space is more constrained in mid-temperate farmlands, while workers in sparse woodlands exhibit greater morphological variation. In contrast, urban parks are characterized by higher stability and reduced morphological differences. Additionally, robust regression analysis reveals that environmental factors such as temperature, precipitation, humidity, and altitude are closely linked to the morphological traits of the workers. Understanding how ant morphology responds to external environmental changes enhances our understanding of their adaptability and their essential ecological roles across various ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

9. Establishing In Vitro Screening Protocols Based on Phenotypic Plasticity of Amaranthus dubius and Galinsoga parviflora Seeds for Drought, Salinity, and Heat Tolerance.

Author

Areington, Candyce Ann, O'Kennedy, Martha M., and Sershen

Subjects

*PHENOTYPIC plasticity, *ALTERNATIVE crops, *LEAF area, *PHENOTYPES, *SEEDS

Abstract

The vulnerability of commercial crops under a changing climate has led scientists to consider wild crop species as alternative food sources. The aim of this study was to identify plastic physiological and morphological traits that could be used to in vitro screen Amaranthus dubius and Galinsoga parviflora seeds for drought, salinity, and heat tolerance. To establish the lethal dose/temperature, 50% (LD/T50), for each stress, seeds for both were subjected to various mannitol and NaCl stresses and a range of temperatures. Percentage seedling emergence was selected as the initial indicator of tolerance and used to establish the LD/T50 for in vitro screening for both species. Seeds of both were then screened at the LD/T50 concentrations/temperatures established, and seedlings that emerged after 21 days were measured for leaf area, root (RL), shoot length (SL), chlorophyll content (Chl), fresh, dry mass, and leaf number. Data for these were used to quantify plasticity in terms of Valladares's phenotypic plasticity index. For A. dubius, three (viz. RL, SL, and Chl) showed some plasticity (≥0.53) and tolerance across all three stressors. For G. parviflora all traits except SL showed some plasticity (≥0.58) and tolerance across all three stressors. Both species had high phenotypic plasticity across all three stressors, which suggests that wild leafy vegetables may possess the ability to tolerate climate change-associated stressors and should be considered for future breeding programs. [ABSTRACT FROM AUTHOR]

Published

2024

10. Functional diversity and community convergence of land snails in the Aegean Sea islands.

Author

Proios, Konstantinos, Maroulis, Leonidas, Rigal, François, Matthews, Thomas J., Cameron, Robert A. D., Sfenthourakis, Spyros, Whittaker, Robert J., Vardinoyannis, Katerina, Mylonas, Moissis, and Triantis, Kostas A.

Subjects

*BIOTIC communities, *SPECIES pools, *EXTRATERRESTRIAL resources, *DATABASES, *REGRESSION analysis

Abstract

Aim: Island biological communities are considered to comprise non‐random assemblages from surrounding source pools, but whether they converge towards predictable structural properties remains unclear. Here, we (i) test whether insular communities of land snails converge towards similar functional and/or taxonomic properties and (ii) evaluate whether island functional diversity is determined by island biogeographical characteristics such as area and distance to the pool as well as human‐related variables. Location: Sixty‐six continental Aegean islands. Taxon: Land snails. Methods: We compiled a database of two morphological traits with functional significance (shell height and width) for 163 island species and 1529 species from the major species pools. We quantified inter‐specific morphological dissimilarity between pairs of islands (turnover), using a modified index of the mean nearest taxon distance. We tested for functional and taxonomic convergence using null models and assessing whether overall mean turnover among islands and pairwise island‐by‐island turnover were lower than expected by chance. We performed multiple regression analyses to test whether functional diversity metrics scale with island biogeographical characteristics and human‐related variables. Results: Our analyses provide strong evidence that communities of land snails across the Aegean islands converge towards non‐random functional properties and taxonomic structure. At the island level, a wide range of different shell shapes is observed, indicating greater functional richness than expected by chance. Regression analyses showed that island area is the only efficient predictor of functional diversity, indicating that available ecological/resource space is of central importance in driving the assembly of different shell shapes. Main Conclusions: Our findings, consistent with previous studies of other taxa from oceanic islands, highlight that island species communities are not randomly assembled and display convergence in their functional and taxonomic composition. Integrating functional diversity metrics within biogeographic analyses has the potential to further our understanding of island biodiversity patterns. [ABSTRACT FROM AUTHOR]

Published

2024

11. Most Pleiotropic Effects of Gene Knockouts Are Evolutionarily Transient in Yeasts.

Author

Liu, Li, Liu, Yao, Min, Lulu, Zhou, Zhenzhen, He, Xingxing, Xie, YunHan, Cao, Waifang, Deng, Shuyun, Lin, Xiaoju, He, Xionglei, and Chen, Xiaoshu

Subjects

GENE expression, LOCUS (Genetics), NATURAL selection, GENETIC variation, TRANSCRIPTION factors

Abstract

Pleiotropy, the phenomenon in which a single gene influences multiple traits, is a fundamental concept in genetics. However, the evolutionary mechanisms underlying pleiotropy require further investigation. In this study, we conducted parallel gene knockouts targeting 100 transcription factors in 2 strains of Saccharomyces cerevisiae. We systematically examined and quantified the pleiotropic effects of these knockouts on gene expression levels for each transcription factor. Our results showed that the knockout of a single gene generally affected the expression levels of multiple genes in both strains, indicating various degrees of pleiotropic effects. Strikingly, the pleiotropic effects of the knockouts change rapidly between strains in different genetic backgrounds, and ∼85% of them were nonconserved. Further analysis revealed that the conserved effects tended to be functionally associated with the deleted transcription factors, while the nonconserved effects appeared to be more ad hoc responses. In addition, we measured 184 yeast cell morphological traits in these knockouts and found consistent patterns. In order to investigate the evolutionary processes underlying pleiotropy, we examined the pleiotropic effects of standing genetic variations in a population consisting of ∼1,000 hybrid progenies of the 2 strains. We observed that newly evolved expression quantitative trait loci impacted the expression of a greater number of genes than did old expression quantitative trait loci, suggesting that natural selection is gradually eliminating maladaptive or slightly deleterious pleiotropic responses. Overall, our results show that, although being prevalent for new mutations, the majority of pleiotropic effects observed are evolutionarily transient, which explains how evolution proceeds despite complicated pleiotropic effects. [ABSTRACT FROM AUTHOR]

Published

2024

12. Diversity of Uses and Local Knowledge Associated with Wild African Plum Trees, Dacryodes edulis, Among Different Ethnic Groups in the Congo Basin.

Author

Mboujda, Franca Marcelle Meguem, Rimlinger, Aurore, Tientcheu, Marie-Louise Avana, Boupoya, Archange, Moupela, Christian, Tankou, Christopher, Duminil, Jérôme, and Carrière, Stéphanie M.

Subjects

PLUM, ETHNIC groups, LOCAL knowledge, FOCUS groups, ETHNOBOTANY

Abstract

Copyright of Economic Botany is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

13. Effects of Biocatharantine and Colchicine on Ploidy and Morphological Traits of Orange Watermelon (Citrullus lanatus (Thunb.) Matsum. & Nakai ‘Citra Laga’)

Author

Rizal Hermawan Setiyobudi, Adib Fakhruddin Yusuf, and Budi Setiadi Daryono

Subjects

ethanolic extract, flow cytometry, germination rate, morphological traits, ploidy analysis, Agriculture, Plant culture, SB1-1110

Abstract

Massive production of watermelon is correlated with its nutritional value and attractive appearance. Intensification of plant breeding through polyploidization is of utmost importance in horticulture to improve productivity with desirable morphological traits. Colchicine is a common polyploid inducer with limitations, including effects on plant viability and high costs. Another anti-mitotic agent has been developed from Catharanthus roseus ethanolic extract, but the applicative provisions need further exploration. This research focuses on the efficacy and performance of biocatharantine and colchicine in improving ploidy levels with morphological evaluation on orange watermelon ‘Citra Laga’. Mature seeds were treated with 2% biocatharantine and 0.2% colchicine for 12 and 24 hours. Generally, major morphological traits are unchanged, with significant differences found only in the width of leaves and color characteristics. Flow cytometry is performed to assess the ploidy level of plant cells. Mixoploid plants containing 2C+4C+8C DNA are produced by colchicine, but the lowest germination rate is found to have a negative effect. Biocatharantine increases the peak intensities of tetraploid 4C DNA within mixoploid plants with minimum risk to plant viability. This research discovers the potential of biocatharantine as an anti-mitotic agent, with an evaluation of the octaploid success of orange watermelon ‘Citra Laga’ mediated by colchicine.

Published

2024

14. Establishing In Vitro Screening Protocols Based on Phenotypic Plasticity of Amaranthus dubius and Galinsoga parviflora Seeds for Drought, Salinity, and Heat Tolerance

Author

Candyce Ann Areington, Martha M. O’Kennedy, and Sershen

Subjects

lethal dose/temperature 50% (LD/T50), morphological traits, phenotypic plasticity index, physiological traits, tolerant phenotypes, wild leafy vegetables, Science, Biology (General), QH301-705.5

Abstract

The vulnerability of commercial crops under a changing climate has led scientists to consider wild crop species as alternative food sources. The aim of this study was to identify plastic physiological and morphological traits that could be used to in vitro screen Amaranthus dubius and Galinsoga parviflora seeds for drought, salinity, and heat tolerance. To establish the lethal dose/temperature, 50% (LD/T50), for each stress, seeds for both were subjected to various mannitol and NaCl stresses and a range of temperatures. Percentage seedling emergence was selected as the initial indicator of tolerance and used to establish the LD/T50 for in vitro screening for both species. Seeds of both were then screened at the LD/T50 concentrations/temperatures established, and seedlings that emerged after 21 days were measured for leaf area, root (RL), shoot length (SL), chlorophyll content (Chl), fresh, dry mass, and leaf number. Data for these were used to quantify plasticity in terms of Valladares’s phenotypic plasticity index. For A. dubius, three (viz. RL, SL, and Chl) showed some plasticity (≥0.53) and tolerance across all three stressors. For G. parviflora all traits except SL showed some plasticity (≥0.58) and tolerance across all three stressors. Both species had high phenotypic plasticity across all three stressors, which suggests that wild leafy vegetables may possess the ability to tolerate climate change-associated stressors and should be considered for future breeding programs.

Published

2024

15. From wild to cultivated crops: general shift in morphological and physiological traits for yield enhancement following domestication

Author

Zhangying Lei, Ziliang Li, Wangfeng Zhang, Daohua He, and Yali Zhang

Subjects

Biomass, Crop domestication, Morphological traits, Photosynthesis, Physiological trait, Yield, Agriculture (General), S1-972, Agricultural industries, HD9000-9495

Abstract

Crop species undergo artificial selection as a result of domestication under agricultural field conditions. However, there is limited information on the pattern of how domestication alters leaf photosynthesis, morphology, and biomass and its allocation. In this review, we firstly introduced the concept of crop domestication, provided clarity on crop domestication syndrome, and emphasized the significance in the conservation and re-utilization of wild crop resources. Next, we discussed the variation in crop biomass and yield using a compiled dataset comprised of 54 wild and cultivated species. We subsequently summarized the general shift in physiological traits including higher growth and photosynthetic rates, light use efficiency, leaf area, chlorophyll, and nitrogen content, which may be associated with greater biomass and yield during crop domestication. We ended by identifying what has been learned on how domestication optimized plant performance to produce today's crops, and by providing some examples of how this knowledge was being exploited and redirected to drive crop improvement in the near future. These general patterns following crop domestication present several implications for offering valuable insights into shaping future genetic engineering targets and improving agricultural management practices.

Published

2024

16. Intraspecific variation of three plumage-cryptic bulbul species

Author

Ariya Dejtaradol, Martin Päckert, and Swen C. Renner

Subjects

Brachypodius melanocephalos, bioacoustics, geographic variation, Isthmus of Kra, morphological traits, Pycnonotus atriceps, Ecology, QH540-549.5

Abstract

Bird songs and morphometry are frequently used to distinguish bird species which are plumage-cryptic, or to delineate boundaries of subspecies. Rubigula flaviventris, Pycnonotus finlaysoni and Brachypodius melanocephalos have each recognized subspecies along the Thai-Malay Peninsula, however the range-limit of the subspecies distribution is still ambiguous and genetic data from a previous own study suggests a revision of the subspecies distribution and the subspecies barriers is warranted. To analyze the subspecies boundaries based on potential song and morphometric traits, we recorded, measured, and analyzed song characters and morphometry of the three bulbuls along the Thai-Malay Peninsula. The geographic variation of songs and morphometry differs significantly for specific traits; however, we could not find any trait discontinuities that would be in accordance with previously documented phylogeographic divides. Instead trait variation was mostly clinal and followed a North-South gradient in line with Bergmann’s rule. Due to the lack of distinctiveness of any subspecific taxon, we conclude that shallow genetic divides on the Thai-Malay Peninsula are not indicative of potential species-level splits in the three species of our study.

Published

2024

17. Comprehensive field screening and morphological assessment of local landraces of paddy for locating resistance against yellow stem borer, Scirpophaga incertulas (Walker)

Author

Balaji, B.N., Vijaykumar, L., Shivanna, B., Naik, D. Jemla, and Raveendra, H.R.

Published

2024

18. Unlocking the potential of local rabbit population: morphological insights for sustainable rabbit farming in Burkina Faso’s challenging environments

Author

Samira Giovannini, Diletta Chiattelli, Alice Cartoni Mancinelli, Alessandro Dal Bosco, Francesca Maria Sarti, Piero Sunzini, Fabiola Bedini, and Cesare Castellini

Subjects

small livestock, rabbit production, morphological traits, poverty alleviation, Animal culture, SF1-1100

Abstract

This study explores the potential of rabbits as a sustainable solution for poverty alleviation and food security in Burkina Faso, a country facing socio-economic and environmental challenges. In the context of limited resources and employment opportunities, rabbits offer advantages such as small size, short generation interval and high reproductive capacity. The research focuses on characterising the morphology of Burkina Faso’s local rabbit population, comparing it with two Italian breeds: a local medium-growing breed called Leprino di Viterbo (LV) and a fast-growing hybrid (a crossbred New Zealand × California, NZC). Utilising path analysis and principal component analysis, the study identifies key morphometric traits crucial for breeding programs and examines the influence of specific traits on body weight (BW) gain and heat stress resilience through ‘Transpiration Indexes.’ Findings highlight the importance of variables like chest girth (CG), abdominal girth (AG), rump width (RW) and nose to shoulders length (NSL) in influencing body weight (BW) and reveal significant size and shape differences among the breeds. The study suggests potential climate adaptation in Burkina Faso’s rabbit population, providing practical insights for breeding programs in resource-constrained regions. This research not only advances scientific understanding but also provides practical insights for breeding programs in resource-constrained regions, emphasising the importance of certain morphological traits for heat dissipation.

Published

2024

19. Genotypic variation in blueberry flower morphology and nectar reward content affects pollinator attraction in a diverse breeding population

Author

Juliana Cromie, John J. Ternest, Andrew P. Komatz, Paul M. Adunola, Camila Azevedo, Rachel E. Mallinger, and Patricio R. Muñoz

Subjects

Vaccinium, Morphological traits, Floral rewards, Plant-pollinator interactions, Pollination, Heritability, Botany, QK1-989

Abstract

Abstract Background Pollination is crucial to obtaining optimal blueberry yield and fruit quality. Despite substantial investments in seasonal beekeeping services, blueberry producers consistently report suboptimal pollinator visitation and fruit set in some cultivars. Flower morphology and floral rewards are among the key factors that have shown to contribute to pollinator attraction, however little is known about their relative importance for improving yield in the context of plant breeding. Clarifying the relationships between flower morphology, nectar reward content, pollinator recruitment, and pollination outcomes, as well as their genetic components, can inform breeding priorities for enhancing blueberry production. In the present study, we measured ten flower and nectar traits and indices of successful pollination, including fruit set, seed count, and fruit weight in 38 southern highbush blueberry genotypes. Additionally, we assessed pollinator visitation frequency and foraging behavior over two growing seasons. Several statistical models were tested to optimize the prediction of pollinator visitation and pollination success, including partial least squares, BayesB, ridge-regression, and random forest. Results Random forest models obtained high predictive abilities for pollinator visitation frequency, with values of 0.54, 0.52, and 0.66 for honey bee, bumble bee, and total pollinator visits, respectively. The BayesB model provided the most consistent prediction of fruit set, fruit weight, and seed set, with predictive abilities of 0.07, -0.08, and 0.42, respectively. Variable importance analysis revealed that genotypic differences in nectar volume had the greatest impact on honey bee and bumble bee visitation, although preferences for flower morphological traits varied depending on the foraging task. Flower density was a major driving factor attracting nectar-foraging honey bees and bumble bees, while pollen-foraging bumble bees were most influenced by flower accessibility, specifically corolla length and the length-to-width ratio. Conclusions Honey bees comprised the majority of pollinator visits, and were primarily influenced by nectar volume and flower density. Corolla length and the length-to-width ratio were also identified as the main predictors of fruit set, fruit weight, seed count, as well as pollen-foraging bumble bee visits, suggesting that these bees and their foraging preferences may play a pivotal role in fruit production. Moderate to high narrow-sense heritability values (ranging from 0.30 to 0.77) were obtained for all floral traits, indicating that selective breeding efforts may enhance cultivar attractiveness to pollinators.

Published

2024

20. The effect of some morphological traits of collection alfalfa samples on productivity through a three-year growing cycle

Author

K. N. Goryunov, A. A. Regidin, and S. A. Ignatiev

Subjects

alfalfa, samples, collection, green mass productivity, morphological traits, Agriculture (General), S1-972

Abstract

The current paper has presented the study conducted in the alfalfa collection nursery on the experimental plots of the Agricultural Research Center “Donskoy” in the period from 2021 to 2023. The purpose of the study was to determine the dependence of green mass productivity of collection alfalfa samples on the morphological traits of plants. The object of the study was a collection of alfalfa, consisting of 105 samples developed created at FSBSI ARC “Donskoy”. Sowing was carried out manually, with row spacing of 20 cm. The area of the plots was 1 m2 , with double repetition. The seed-sowing rate for alfalfa was 2 g/m2 . The standard variety was ‘Rostovskaya 90’. As a result, there was revealed that over 3 years the highest mean productivity of alfalfa green mass was formed in two groups of samples according to plant height: 1) 80–85 cm – 8.10 kg/m2 (the samples ‘SGP-424’, ‘SPCh 401/2000’); 2) 105–110 cm – 7.88 kg/m2 (‘SGP-162’, ‘SGP-189’, ‘SGP-175’, etc.). This indicator of alfalfa productivity was the highest (7.81 kg/m2 ) in the optimal values of tillering (15–20 pcs.). The highest alfalfa green mass productivity was formed by the samples with foliage of 48–50 % and 42–44 %. The green mass productivity of alfalfa samples varied within the range of 3.33–10.49 kg/m2 . There have been identified 7 samples which productivity ranged from 9.09 kg/m2 to 10.49 kg/m2. There have been selected the samples that combined the highest green mass productivity with tallness and high foliage of plants, as well as the greatest leaf length and hay yields.

Published

2024

21. Application of artificial neural networks to classify Avena fatua and Avena sterilis based on seed traits: insights from European Avena populations primarily from the Balkan Region

Author

Mostafa Oveisi, Danijela Sikuljak, Ana A. Anđelković, Dragana Bozic, Nenad Trkulja, Ramin Piri, Peter Poczai, and Sava Vrbnicanin

Subjects

Avena fatua, Avena sterilis, Artificial neural networks, Seed traits, Morphological traits, Geographic coordinates, Botany, QK1-989

Abstract

Abstract Background Avena fatua and A. sterilis are challenging to distinguish due to their strong similarities. However, Artificial Neural Networks (ANN) can effectively extract patterns and identify these species. We measured seed traits of Avena species from 122 locations across the Balkans and from some populations from southern, western, and central Europe (total over 22 000 seeds). The inputs for the ANN model included seed mass, size, color, hairiness, and placement of the awn attachment on the lemma. Results The ANN model achieved high classification accuracy for A. fatua and A. sterilis (R2 > 0.99, RASE 0.99, RASE

Published

2024

22. Phenotypic diversity of some Iranian grape cultivars and genotypes (Vitis vinifera L.) using morpho-phenological, bunch and berry traits

Author

Saiyed Mohammad Mahdi Mirfatah, Mousa Rasouli, Mansour Gholami, and Abbas Mirzakhani

Subjects

berry, cluster analysis, correlation coefficient, grapes, morphological traits, Agriculture

Abstract

Purpose: Grape (Vitis vinifera L.) is one of the most important horticultural products that are grown in different parts of Iran and has high nutritional values. In this study, the genetic diversity of cultivars and genotypes of some vineyards of Markazi province were investigated for the preliminary selection of superior cultivars and genotypes in terms of morphological and fruit characteristics for use in grape breeding programs. Research method: For this purpose, grouping and comparing 84 grape cultivars and genotypes were carried out using 70 traits including phenological and vegetative traits, trichome and stomata, bunch and berry traits. Findings: Based on the results, the “Sahebi Hazaveh” cultivar with 1000.17 g had highest an average bunch weight to compare other cultivars and genotypes. Results showed that, some traits such as bunch weight, bunch shoulders, fresh weight, rachis weight, the ratio of bunch weight to peduncle weight, the ratio of rachis weight to bunch weight, dry weight of bunch shoulders, length of the tail of bunch, berry weight, pedicel weight, seed weight and length of seed had a high coefficient of variation. Factor analysis reduced the evaluated traits to 10 main factors showed that they justified 78.38% of the total variance. Cluster analysis divided cultivars and genotypes into 4 main groups at five Euclidean distances. Limitations: No limitations were encountered. Originality/Value: This study indicated that grapes germplasm resources in zone are of noticeable diversities and can be promising for the utilization in the breeding programs. Based on the results, cultivars and genotypes of “Khalili Khondab” region, “Yaghouti”, “Sahebi”, “Fakhri”, “Kharvand” and “Kondori” Hazaveh region and “Sahebi” Aghbolagh region in leafing time, late flowering, sugar percentage, bunch and berry characteristics, stomatal density, standing and lying trichome density in leaves were superior to other cultivars and genotypes.

Published

2024

23. Canonical correlations between wheat traits in multienvironment trials.

Author

Tischler, André Luís, Lúcio, Alessandro Dal’Col, Maldaner, Ivan Carlos, Nardino, Maicon, Diel, Maria Inês, Tartaglia, Francieli de Lima, Sgarbossa, Jaqueline, and Lambrecht, Darlei Michalski

Subjects

*CROP improvement, *AGRICULTURE, *WHEAT, *GRAIN yields, *FOOD crops

Abstract

Wheat is a crop of great food importance for food production in Brazil. However, the improvement of this crop is still concentrated in isolated areas, which hinders advances in new cultivation regions due to the extensive demand for existing information. In this investigation, four wheat genotypes analysed to study associations and interrelationships between wheat traits across nine environments during the agricultural years of 2016, 2017 and 2018. The experiment was conducted using a randomised block design with four repetitions, and the analysis was divided into two groups: morphological and productive traits of wheat, comprising three and eleven characteristics, respectively. Canonical correlations between the morphological and productive groups were found to be dependent in most environments. Taller plants with longer main spikes and longer tiller spikes can be indirectly selected to increase grain yield under different sowing conditions. The information generated in this study indicate that some care must be taken when using the interrelations between trait groups to select or recommend genotypes for broader regions, as these relationships are influenced by the specific conditions of each region and sub-region. [ABSTRACT FROM AUTHOR]

Published

2024

24. Genotypic variation in blueberry flower morphology and nectar reward content affects pollinator attraction in a diverse breeding population.

Author

Cromie, Juliana, Ternest, John J., Komatz, Andrew P., Adunola, Paul M., Azevedo, Camila, Mallinger, Rachel E., and Muñoz, Patricio R.

Subjects

*PLANT breeding, *BUMBLEBEES, *HONEYBEES, *FLORAL morphology, *FORAGING behavior, *BLUEBERRIES

Abstract

Background: Pollination is crucial to obtaining optimal blueberry yield and fruit quality. Despite substantial investments in seasonal beekeeping services, blueberry producers consistently report suboptimal pollinator visitation and fruit set in some cultivars. Flower morphology and floral rewards are among the key factors that have shown to contribute to pollinator attraction, however little is known about their relative importance for improving yield in the context of plant breeding. Clarifying the relationships between flower morphology, nectar reward content, pollinator recruitment, and pollination outcomes, as well as their genetic components, can inform breeding priorities for enhancing blueberry production. In the present study, we measured ten flower and nectar traits and indices of successful pollination, including fruit set, seed count, and fruit weight in 38 southern highbush blueberry genotypes. Additionally, we assessed pollinator visitation frequency and foraging behavior over two growing seasons. Several statistical models were tested to optimize the prediction of pollinator visitation and pollination success, including partial least squares, BayesB, ridge-regression, and random forest. Results: Random forest models obtained high predictive abilities for pollinator visitation frequency, with values of 0.54, 0.52, and 0.66 for honey bee, bumble bee, and total pollinator visits, respectively. The BayesB model provided the most consistent prediction of fruit set, fruit weight, and seed set, with predictive abilities of 0.07, -0.08, and 0.42, respectively. Variable importance analysis revealed that genotypic differences in nectar volume had the greatest impact on honey bee and bumble bee visitation, although preferences for flower morphological traits varied depending on the foraging task. Flower density was a major driving factor attracting nectar-foraging honey bees and bumble bees, while pollen-foraging bumble bees were most influenced by flower accessibility, specifically corolla length and the length-to-width ratio. Conclusions: Honey bees comprised the majority of pollinator visits, and were primarily influenced by nectar volume and flower density. Corolla length and the length-to-width ratio were also identified as the main predictors of fruit set, fruit weight, seed count, as well as pollen-foraging bumble bee visits, suggesting that these bees and their foraging preferences may play a pivotal role in fruit production. Moderate to high narrow-sense heritability values (ranging from 0.30 to 0.77) were obtained for all floral traits, indicating that selective breeding efforts may enhance cultivar attractiveness to pollinators. [ABSTRACT FROM AUTHOR]

Published

2024

25. 云南元江不同胸径厚皮树的水力性状变异格局.

Author

彭晓容, 杨达, 王琴, 柯妍, 杨石建, and 张教林

Subjects

*LEAF area, *PETIOLES, *DIAMETER, *DENSITY, WOOD density

Abstract

In order to investigate the variation patterns of hydraulic traits of trees with different diameters at breast height (DBH) grades, we focused a dominant tree species (Lannea coromandelica) in the dry and hot ecosystem of the Yuanjiang, and measured the distribution patterns of hydraulic traits including shoot (leaf and stem), leaf, and stem hydraulic conductance, and morphological properties (DBH, leaf area/petiole length, leaf area/mass of petiole, mass of leaf/mass of petiole, average petiole length, bark density, wood density, Huber value and leaf mass per area) for 56 L. coromandelica individuals with different DBH grades (0 < DBH ≤ 9 cm), and then discussed the variation patterns of these traits among three DBH grades (0 < DBH < 3, 3 < DBH < 6 and 6 < DBH ≤ 9 cm). The results were as follows: (1) The stem hydraulic conductance was significantly greater than leaf hydraulic conductance in three DBH grades, indicating that there was a hydraulic segmentation between the stem and leaf, whereas the degree of hydraulic segmentation had a similar pattern. (2) Among the three DBH grades, there were significant differences in morphological traits such as average petiole length, bark density, wood density, Huber value and leaf mass per area, but there were no significant differences in the hydraulic conductance of the shoot, stem, and leaf. (3) Among the three DBH grades, the shoot hydraulic conductance was positively correlated with leaf and stem hydraulic conductance, indicating there was a coordination between leaf and stem hydraulic conductance. The stem hydraulic conductance was negatively correlated with bark density and positively with wood density, and leaf hydraulic conductance was significantly negatively correlated with the Huber value, indicating these leaf and stem morphological traits may impact shoot and leaf hydraulic conductance. Overall, this study suggests that there are similar hydraulic distribution patterns between leaf and stem of L. coromandelica at different growth stages, although some morphological traits differ significantly among different diameter grades. These results have important physiological significance for understanding the water transport mechanism in plants. [ABSTRACT FROM AUTHOR]

Published

2024

26. How the morphology of two closely related riverine sympatric species are reflected in ecological niche overlapping? A case study of two Capoeta species.

Author

Mouludi-Saleh, Atta, Eagderi, Soheil, and Poorbagher, Hadi

Subjects

*ECOLOGICAL niche, *FISHER discriminant analysis, *MORPHOLOGY, *HABITAT selection, *FLOW velocity, *PRINCIPAL components analysis, *EYE tracking

Abstract

This study investigated morphological differences, habitat preference, and ecological niche overlap in two sympatric Capoeta species i.e., Capoeta. damascina and Capoeta umbla collected from the Sirvan river drainage. Ten environmental factors, including pH, temperature, electrical conductivity (EC), total dissolved solids (TDS), river width, river depth, flow velocity, altitude, slope, and dissolved oxygen (DO) were measured during sampling time. A total of 17 morphometric characteristics were measured using digital calipers for traditional morphometrics (TM). For the geometric morphometric method (GM), 2D pictures were taken from the left side of the fresh samples, by tpsDig2 software, and 16 landmark points were defined and digitalized to extract body shape data. The data were analyzed using t-test, Mann–Whitney, principal component analysis (PCA), and discriminant function analysis based on the P-value of Hotelling's T-squared. The ratio of the common area under the graph to the total area of habitat suitability indices was defined as the ecological niche overlap. The results showed significant differences in eye diameter, predorsal, caudal peduncle length, preanal, preventral, ventral-pectoral, body depth, and caudal peduncle depth traits (P < 0.05) in TM, and those differences in the GM were related to the position of the snout, head and body depth and caudal peduncle length i.e., C. damascina had the deeper body shape and head, and anterior the snout and caudal peduncle length. Based on the results, C. damascina prefers areas with higher pH and temperature and by increasing other studied factors, its habitat suitability decreased. The preference for C. umbla with increasing river depth and DO was increased. These two species showed low niche overlap i.e., they avoid competition in their habitat by opting for different areas in terms of river width, flow velocity, and temperature that have more depth with higher slope microhabitats. [ABSTRACT FROM AUTHOR]

Published

2024

27. Diet breadth and overlap in the Family Molidae.

Author

Chang, Ching-Tsun, Drazen, Jeffrey C., Hixon, Mark A., Nyegaard, Marianne, Phillips, Natasha D., Chiang, Wei-Chuan, Ho, Yuan-Hsing, and Popp, Brian N.

Subjects

LITERATURE reviews, STABLE isotope analysis, ECOLOGICAL niche, GASTROINTESTINAL contents, FOOD chains

Abstract

Marine sunfishes (also known as molids) of the Family Molidae are widely distributed from tropical to temperate waters and are typically recognized as predators of gelatinous plankton almost exclusively. Despite similar morphological features and behaviors, the trophic ecology and potential interactions among species of molids remain largely unknown. We reviewed literature on the diets of each species and conducted diet analyses of three species sampled off the east coast of Taiwan. We examined diet separation among sympatric species—ocean sunfish Mola mola, bumphead sunfish Mola alexandrini, and sharptail sunfish Masturus lanceolatus—through stomach content and stable isotope analyses. A literature review revealed that the Family Molidae exhibits broader diets than previously characterized. Mola mola, M. alexandrini, and M. tecta consume prey from epi/mesopelagic environments, while M. lanceolatus and slender sunfish Ranzania laevis consume prey from both epi/mesopelagic environments and benthic habitats. No gelatinous prey was found in the stomachs of R. laevis. Off Taiwan, M. mola and M. alexandrini had similar and relatively narrow diet breadths, primarily feeding on scyphozoans, suggesting similar trophic niches. In contrast, M. lanceolatus displayed a broader diet, mainly consuming tunicates and augmenting their diet from epi- and mesopelagic, coastal, and benthic habitats. Dietary differences between M. lanceolatus and the other species might be linked to morphological differences such as gape size and eye length. Mola mola and M. alexandrini tend to have larger gapes and eyes and our diet analysis shows that they forage on larger sized prey and at greater depths. [ABSTRACT FROM AUTHOR]

Published

2024

28. Experimental insights into the stability of karst carbon sink by submerged macrophytes.

Author

Wang, Pei, Bai, Bing, Cao, Jianhua, and Wu, Zhenbin

Subjects

CARBON cycle, KARST, MACROPHYTES, BIOMASS, CONTROL groups

Abstract

Karst regions occupy 15–20% of the Earth's continental area, and the quantity of atmospheric CO2 trapped by surface karstification is approximately 0.61 Gt C/year. However, the stability of the karst carbon sink remains questioned. Here, we focused on two typical submerged macrophytes (H. verticillata and M. spicatum) collected from a karst spring-fed river to explore their influences on the stability of karst carbon sink. The pH drift technique reveals that both H. verticillata and M. spicatum collected from the karst spring-fed river can use HCO3− as a carbon source, providing direct evidences of the karst carbon sink sequestrated by submerged macrophytes. In the DIC enrichment water, the mean RGR fresh weights are 0.092 day−1 and 0.047 day−1 for H. verticillata and M. spicatum, respectively, which are 5.38 and 10.23 times compared with that in the control group. Taking the morphological traits to indicate their biomass allocation strategies, we find that for both species the accumulated biomass is allocated to apical elongation and root production, the difference to lateral tillering for H. verticillata as well. Overall, H. verticillata has a relatively higher ΔBiomass:ΔHCO3− ratio than M. spicatum, this is in agreement with the results of pH drift and morphological traits. Moving forward, we establish a model ( Δ B i o m a s s = 0.0985 × Δ p H + 0.0969 , P < 0.001) based on the experimental data so that can be applied to quantitatively estimate the karst carbon sequestrated by submerged macrophytes in karst spring-fed rivers. Considering submerged macrophyte is the cornerstone in biomass pyramid, our work highlights that submerged macrophytes act as a carbon pump in karst aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

29. Genetic Mapping of Quantitative Trait Loci for Yield-Affecting Traits in a Barley Doubled Haploid Population Derived from Clipper X Sahara 3771.

Author

Vafadarshamasbi, Ulduz, Jamali, Seyed Hossein, Sadeghzadeh, Behzad, and Mandoulakani, Babak Abdollahi

Subjects

LOCUS (Genetics), GENE mapping, BARLEY, SEED yield, GRAIN yields, CROP yields, LOCUS of control

Abstract

Many traits play essential roles in determining crop yield. Wide variation for morphological traits exists in Hordeum vulgare L., but the genetic basis of this morphological variation is largely unknown. To understand genetic basis controlling morphological traits affecting yield, a barley doubled haploid population (146 individuals) derived from Clipper X Sahara 3771 was used to map chromosome regions underlying days to awn appearance, plant height, fertile spike number, flag leaf length, spike length, harvest index, seed number per plant, thousands kernel weight, and grain yield. Twentyseven QTLs for nine traits were mapped to the barley genome that described 3-69% of phenotypic variations; and some genomic regions harbor a given QTL for more than one trait. Out of 27 QTLs identified, 19 QTLs were novel. Chromosomal regions on 1H, 2H, 4H, and 6H associated with seed grain yield, and chromosome regions on 2H and 6H had major effects on grain yield (GY). One major QTL for seed number per plant was flanked by marker VRS1-KSUF15 on chromosome 2H. This QTL was also associated with GY. Some loci controlling thousands kernel weight (TKW), fertile spike number (FSN), and GY were the same. The major grain yield QTL detected on linkage PSR167 co-localized with TAM10. Two major QTLs controlling TKW and FSN were also mapped at this locus. Eight QTLs on chromosomes 1H, 2H, 3H, 4H, 5H, 6H, and 7H consistently affected spike characteristics. One major QTL (ANIONT1A-TACMD) on 4H affected both spike length (SL) and spike number explained 9 and 5% of the variation of SL and FSN, respectively. In conclusion, this study could cast some light on the genetic basis of the studied pivotal traits. Moreover, fine mapping of the identified major effect markers may facilitate the application of molecular markers in barley breeding programs. [ABSTRACT FROM AUTHOR]

Published

2024

30. Assessment of genetic parameters and heritability of Dendrobium species section Spatulata native to Indonesia.

Author

Tini, E. W., Widodo, P., Sugiyono, and Ulinnuha, Z.

Abstract

Being one of the most abundant genera of orchids, Dendrobium presents a valuable genetic resource for hybridization programs. Morphological characterization and assessment of genetic parameters plays a crucial role in establishing genetic connections among orchid species within the same genus. The study aims to discern the morphological traits of five Indonesian Dendrobium species, intending to evaluate their potential as candidates for crossbreeding programs. The materials used in this study were D. antennatum, D. discolor, D. stratiotes, D. lineale, D. gouldii, and D. sylvanum. This research examines 21 quantitative traits and 21 qualitative morphological traits of the studied Dendrobium. The findings reveal variations in characters related to flowers, leaves, and pseudobulbs. The analysis of genetic parameters indicates the presence of genetic diversity in traits such as flower stalk length, length of inflorescence, flower series length, flower length, flower width, dorsal sepal width, lateral sepal width, petal length, petal width, labellum length, labellum width, and the number of florets. All observed traits demonstrate high heritability. So, the characters that have high genetic variability and heritability are valuable in selection criteria for plant breeding. [ABSTRACT FROM AUTHOR]

Published

2024

31. Body size responses to urban temperature variations are driven by life history traits in spiders.

Author

Cabon, Valentin, Quénol, Hervé, Deletre, Benoît, Copin, Louis, Dubreuil, Vincent, and Bergerot, Benjamin

Subjects

*LIFE history theory, *BODY size, *TRAFFIC violations, *URBAN ecology, *URBAN heat islands, *SPIDERS, *CORAL bleaching, *COLD-blooded animals

Abstract

Urban ecosystems exhibit altered environmental conditions compared to the rural surroundings, including higher temperatures, the so‐called urban heat island (UHI) effect. Along urbanisation gradients, temperature variations occur at various scales ranging from the landscape to the microhabitat, with possible consequences on living organisms. As ectothermic animals, arthropods are particularly affected by UHIs because warming may directly induce physiological effects on their metabolism.Body size is a commonly used metric to investigate arthropod responses to thermal stress, but the scale‐dependent role of temperature variation as predictor of body size remains unclear. To assess temperature–size relationships across spatial scales and test if a common pattern to several species emerges, we performed morphological measurements on 2283 individuals representing 11 spider species belonging to Hahniidae, Linyphiidae, Lycosidae and Tetragnathidae. Spiders were collected on 36 grasslands distributed along a broad UHI gradient.Intraspecific shifts in body size were related to temperature in the Lycosids Pardosa prativaga and Pardosa pullata at the landscape and local scales, respectively, whereas no clear effects were observed regarding the other examined species. In both species, sex was an important endogenous factor that modulated individual responses; females were more affected than males by temperature.The contrasting amplitudes of the responses observed among Lycodids and the other species indicate that large, low dispersive and univoltine species are under a stronger influence of temperature than small bivotline species that can disperse aerially. Our results on spiders highlight that considering species‐specific life history traits helps to understand contrasting responses among species, and this may be essential for drawing general patterns of phenotypic changes among arthropods under anthropogenic warming. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

32. Slope aspect of a mountainous grassland landscape shapes the structure of an encroaching shrub (Euryops floribundus N.E. Br): insights from communal grazing sites located at varying distances from rural homesteads.

Author

Gxasheka, Masibonge and Dlamini, Phesheya

Subjects

ENCROACHMENTS (Real property), GRASSLANDS, SELF-reliant living, COMMONS, FRONTIER & pioneer life, GRAZING

Abstract

Mountainous grassland landscapes are severely threatened by the proliferation of shrub encroachment. So far, it remains unclear though how slope aspect coupled with land disturbances linked to the proximity of homesteads to communal grazing sites affects the distribution, density and structure of the encroaching shrubs in these grassland ecosystems. In this study, we investigated the role that slope aspect plays in determining the density and structure of an encroaching shrub species Euryops floribundus N.E. Br in three communal grazing sites located at varying distances from rural homesteads in a semi-arid mountainous grassland in the Eastern Cape Province of South Africa. Three sites were strategically chosen in Cala communal grazing lands in an encroached mountainous grassland landscape that depicted north and south-facing slope aspects. The selected sites were Tsengiwe; a site located in close proximity to homesteads at a distance of less than 100 m, Upper Mnxe situated at an intermediate distance ranging from 200 to 800 m away from homesteads and Manzimdaka, which was located furthest from homesteads at a distance greater than 1600 m. In each site and corresponding slope aspect, the density and structure of the shrub E. floribundus were evaluated on 36 randomly distributed plots, yielding a total of 108 plots across all sites. We found that shrub density was significantly higher (50%) on the north-facing slope compared to the south-facing slope in Tsengiwe, the site located near homesteads. Shrub height was significantly higher (53 and 17%) on the north-facing slope compared to the south-facing slope at Upper Mnxe and Manzimdaka, which were located at intermediate and furthest distances from the homesteads. Notably, shrub height was significantly lower (37%) in the north-facing slope compared to the south-facing slope in Tsengiwe. Following a similar pattern to shrub height, total stem number was significantly higher (20 and 85%) in the north-facing slope compared to the south-facing slope at Upper Mnxe and Tsengiwe, respectively. Shrub crown area was higher (33 and 11%) in the north-facing slope compared to the south-facing slope at Upper Mnxe and Manzimdaka, respectively. A strong positive relationship was established between the height of shrubs and their longest crown diameter, shortest crown diameter and shrub crown area across all sites, suggesting that the investigated shrub species E. floribundus employs its structural characteristics to survive, and thrive and this was more evident in the north-facing slope. The results highlight the importance of considering the proximity of homesteads into account in ecological studies, and puts emphasis on improved understanding of the vegetation patterns shaped by shrub encroachment in mountainous grasslands, which is crucial in the development of effective land management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

33. Odonata responses to dispersal and niche processes differ across Amazonian endemism regions.

Author

Brito, Joás Silva, Cottenie, Karl, Cruz, Gabriel Martins, Calvão, Lenize Batista, Oliveira‐Junior, José Max Barbosa, Carvalho, Fernando Geraldo, Brasil, Leandro Schlemmer, Dias‐Silva, Karina, Bastos, Rafael Costa, Resende, Bethânia Oliveira, Ferreira, Victor Rennan Santos, Vieira, Lisandro Juno Soares, Michelan, Thaisa Sala, and Juen, Leandro

Subjects

*ODONATA, *AQUATIC insects, *DRAGONFLIES, *DAMSELFLIES, *ENDEMIC species, *ABSOLUTE value

Abstract

Niche and dispersal‐based processes govern freshwater communities, such as aquatic insects, shaping their distribution and establishment in the environment. So, we aimed to address the relative influence of niche and dispersal‐based processes on Odonata diversity in Amazonian freshwater systems, and the influence of species dispersal functional traits on their longitudinal and latitudinal ranges. We used the Dispersal‐Niche Continuum Index (DNCI) to test (i) regions more distant would present a prevalence of dispersal‐based processes, and (ii) different patterns would come from the two Odonata suborders; and by applying generalised linear models, we tested (iii) dispersal‐related functional traits from the suborders would influence latitudinal and longitudinal midpoints of the species. We found that more distant regions had lower values of pairwise Dispersal–Niche Continuum, mainly for Zygoptera, corroborating our first hypothesis. Moreover, Zygoptera also presented the lowest absolute values of Dispersal–Niche Continuum and Anisoptera presented a joint influence of niche and dispersal‐based processes, agreeing with our second hypothesis. Only Zygoptera presented a significant association between dispersal functional traits and longitudinal midpoints, corroborating our third hypothesis. Our results indicated a prevalence of dispersal‐related processes for Zygoptera, which can be explained by massive geographical barriers, such as the rivers, and their narrow physiological and ecological tolerance. Moreover, dispersal‐related traits demonstrated significant influence on longitudinal midpoints of Zygoptera, a scenario that the presence of the rivers may explain. A better understanding of the prevalent predictors of the species and how their dispersal ability governs their distribution has conservational implications. [ABSTRACT FROM AUTHOR]

Published

2024

34. MINERAL AND NAN0-SULFUR FERTILIZERS EFFECTS ON THE MORPHOLOGICAL AND BIOCHEMICAL COMPONENTS 0F THE GINGER (ZINGIBER OFFICINALE L.).

Author

AL-SHAMMERYI, W. H. M.

Subjects

*SULFUR fertilizers, *FACTORIAL experiment designs, *LIFE sciences, *PHYTIC acid, *ESSENTIAL oils, *GINGER

Abstract

An experiment on ginger (Zingiber officinale L.) commenced in 2020 using the plant growth incubator of the Laboratories, Department of Biological Sciences, College of Sciences, University of Wasit, Iraq. The study aimed to investigate the effects of mineral sulfur fertilizer at concentrations of 0, 2, 4, 6, and 8 ml/l, and nano-sulfur with concentrations of 0, 1, 2, 3, and 4 ml/l on the plant height, the number of leaves, leaf content of total chlorophyll, leaf area, the tannin of plant, phytic acid, and essential oil of the ginger rhizome. It was evident that a single use of the previously mentioned variables significantly impacted ginger’s vegetative characteristics and chemical composition, particularly at high concentrations. Using the two-way interactions obtained distinct results. The treatment design was a factorial experiment (5 m × 5 m × 3 m) in a completely randomized design with three replicates. The study revealed significant enhancement in all attributes, whether the morphological and biochemical content achieved the highest mineral sulfur and nano-sulfur fertilizer concentrations alone, or in combinations. [ABSTRACT FROM AUTHOR]

Published

2024

35. Selective effect of winter weather on a songbird's morphology depends on individual sex and winter condition.

Author

Wang, Yue, Hu, Qian, Wang, Yu, Liu, Jinfa, Du, Zhiyong, Xu, Jiliang, and Li, Jianqiang

Subjects

*WINTER, *WEATHER, *SONGBIRDS, *MORPHOLOGY, *CLIMATE change, *SNOWSTORMS

Abstract

Knowledge of the effect of harsh weather on the phenotypic traits of organisms is essential for understanding the environmental influence on phenotype evolution and holds implications for predicting how species respond to current climate change. For many birds, harsh weather in winter often imposes a strong selective effect on their survival, and only the individuals with certain phenotypes may survive. However, whether the selective effect on phenotype varies with winter weather conditions has been poorly investigated. Here, we explored the selective effect of winter weather on black-throated tit's (Aegithalos concinnus) morphological traits under winters with and without severe snowstorms. We found that for males, the sizes of their bills, heads and wings significantly affected their overwinter survival, but the effects varied with winter conditions. In relatively benign winters, males with smaller bill depths, smaller bill surface areas, and greater head lengths survived better; whereas, in winters with severe snowstorms, a reverse pattern was found. This phenomenon was likely driven by selection pressures from heat retention and foraging requirements, with their relative importance depending on winter conditions. Additionally, wing length was positively correlated with male survival and the relationship was stronger in harsher winters, which was probably due to longer wings' higher flight efficiency in adverse weather. By contrast, we found no correlation between morphological traits and survival in females. These results suggest a sex-specific and condition-dependent selective effect of environment on bird phenotypes, implying complicated interactions between different selection pressures and phenotype evolution. [ABSTRACT FROM AUTHOR]

Published

2024

36. Effects of Different Cultivation Modes on Morphological Traits and Correlations between Traits and Body Mass of Crayfish (Procambarus clarkii).

Author

Li, Jinlong, Qin, Qin, Tian, Xing, Guo, Jiarong, Tang, Bowen, He, Zhigang, Xie, Zhonggui, Wang, Yude, and Wang, Dongwu

Subjects

*CRAYFISH, *PROCAMBARUS clarkii, *BODY weight, *SEXUAL dimorphism, *PADDY fields, *MATHEMATICAL models

Abstract

Simple Summary: It is well known that animal morphological traits are influenced by both genetic and environmental factors, but further research is needed to investigate the extent to which the environment influences morphological traits under the same genetic background. As one of the most widely distributed freshwater shrimp species in the world, the crayfish has a strong territorial and combative habit, so the influence of the aquaculture environment on its morphological development is more obvious. Meanwhile, under the same environment, different sexes of crayfish also showed corresponding morphological differences due to their reproductive functions. In this study, juvenile crayfish hatched from the same population were cultured in different growing environments, and the effects of environment and sex on their morphological characteristics were evaluated by mathematical models such as correlation analysis, pathway analysis, and gray correlation, so as to provide a basis for the artificial selection of crayfish in the later stage of development. In this study, juvenile crayfish hatched from the same population were cultured in different growing environments: pond (D1), paddy field (D2), and aquaculture barrel (D3), and fed for 60 days. Crayfishes were selected randomly, females and males, 50 tails each from six groups (D1-♀, D1-♂, D2-♀, D2-♂, D3-♀, D3-♂) to measure the following morphological traits: full length (X1), body length (X2), chelicerae length (X3), chelicerae weight (X4), cephalothorax length (X5), cephalothorax width (X6), cephalothorax height (X7), eye spacing (X8), caudal peduncle length (X9), and caudal peduncle weight (X10). We found that the coefficient of variation (CV) of X4 was the largest in each culture mode, and males (28.58%~38.67%) were larger than females (37.76%~66.74%). The CV of X4 of crayfish cultured in D1 and D2 was larger than that of D3. All traits except X8 were positively correlated with body weight (p < 0.05). After pathway analysis, we found that X4, X5, X7, and X10 were significantly correlated with the body weight of D1-♀; the equation was YD1-♀ = −29.803 + 1.249X4 + 0.505X5 + 0.701X7 + 1.483X10 (R2 = 0.947). However, X2, X4, and X6 were significantly correlated with the body weight of D1-♂; the equation was YD1-♂ = −40.881 + 0.39X2 + 0.845X4 + 1.142X6 (R2 = 0.927). In D2-♀, X1, X4, X5, and X10 were significantly correlated with body weight; the equation was YD2-♀ = −12.248 + 0.088X1 + 1.098X4 + 0.275X5 + 0.904X10 (R2 = 0.977). X4 and X5 played a major role in the body weight of D2-♂ with the equation: YD2-♂ = −24.871 + 1.177X4 + 0.902X5 (R2 = 0.973). X3 and X10 mainly contributed to the body weight of D3-♀ with the equation: YD3-♀ = −22.476 + 0.432X3 + 3.153X10 (R2 = 0.976). X1 and X4 mainly contributed to the body weight of D3-♂ with the equation: YD3-♂ = −34.434 + 0.363X1 + 0.669X4 (R2 = 0.918). Comparing the pathway analysis with the gray relation analysis, we could conclude that the traits most correlated with body weight in D1-♀ were X10 and X7; in D1-♂, X6; in D2-♀, X10, X1, and X5; in D2-♂, X5; in D3-♀, X10; and in D3-♂, X4 and X1. [ABSTRACT FROM AUTHOR]

Published

2024

37. The relationship between morphology and flight in Drosophila: a study of two pairs of sibling species from a natural population.

Author

Flaibani, Nicolás, Ortiz, Victoria Estefanía, Fanara, Juan José, and Carreira, Valeria Paula

Subjects

*DROSOPHILA, *MATING grounds, *DROSOPHILA melanogaster, *SEXUAL dimorphism, *MORPHOLOGY, *INSECT flight

Abstract

Insect flight is a complex trait involved in different behaviors, from the search for sexual partners, food, or breeding sites. Many studies have postulated the adaptive advantages of certain morphological traits in relation to increased flight capacity, such as low values of wing loading or high values of wing:thorax ratio and wing–aspect ratio. However, few studies have evaluated the relationship between variables related to flight and morphological traits in Drosophila. This work aimed to study morphological traits in males and females of two pairs of sibling species: Drosophila buzzatii Patterson and Wheeler‐Drosophila koeferae Fontdevila and Wasserman, and Drosophila melanogaster Meigen‐Drosophila simulans Sturtevant, and to analyze its relationship with flight. We detected the highest proportion of flight time in D. koepferae and D. simulans compared to D. buzzatii and D. melanogaster, respectively. Our results also revealed sexual dimorphism, with males exhibiting a higher proportion of flight time than females. Surprisingly, we did not find a general pattern to explain the relationship between morphology and the proportion of flight time because associations varied depending upon the analyses (considering all groups together or each sex‐species combination separately). Moreover, these associations explained a low percentage of variation, suggesting that other nonmorphological components related to flight, such as physiological variables, should be taken into account. This work allowed us to show the variability and complexity of an aspect of flight, suggesting that the adaptive role of the morphological traits studied might have been overestimated. [ABSTRACT FROM AUTHOR]

Published

2024

38. Morpho-phenological characterization and genetic analysis of dolichos bean germplasm from Uttar Pradesh, India.

Author

V, Kiran, Ola, Arjun Lal, Tiwari, Devesh, Sharma, Gaurav, Kumar, Shailendra, and Singh, Saurabh

Subjects

*PLANT breeding, *GENETIC variation, *CROPS, *PRINCIPAL components analysis, *CROP improvement

Abstract

The true characterization of elite germplasm is of utmost importance for accelerating the crop breeding programme. The Indian dolichos bean [ Lablab purpureus (L.) var. typicus Prain] has the potential to improve nutritional and food security. In the present investigation, a total of 21 genotypes of dolichos bean, comprising local collections mainly, along with one standard check (Kashi Sheetal) were evaluated in a complete randomized block design with three replications for two consecutive years, 2021–22 to 2022–23 for the perusal of the genetic variability. Analysis of variance revealed significant differences among all the genotypes for all the characters. PCV and GCV estimates revealed very little influence of environment on the expression of traits under study. High heritability (>90%) estimates coupled with high genetic advance as a percent of the mean were observed for flower attributes, pod length, average weight of 10 pods, pod yield and protein content. The principal component analysis revealed that the first two components cumulatively accounted for more than 50% of total variability. The present investigation revealed that the genotypes, RLBDL-S-8, RLBDL-S-14 and RLBDL-S-4-5 were stable across the years and genotype RLBDL-S-8 exhibited the highest yield potential, which can be used effectively in the development of high yielding varieties of dolichos bean in the Bundelkhand region. The study also revealed the presence of wide genetic variability in the studied local accessions which is a prerequisite for the genetic improvement of crop plants. High heritability and genetic advancement indicated the scope of selection in the crop improvement. [ABSTRACT FROM AUTHOR]

Published

2024

39. Morphological and molecular data suggest the presence of cryptic diversity within Dermacentor nitens (Acari: Ixodidae) in Colombia.

Author

Ospina-Pérez, Erika M., Ossa-López, Paula A., Ramírez-Chaves, Héctor E., and Rivera-Páez, Fredy A.

Subjects

*DERMACENTOR, *IXODIDAE, *MITES, *POISSON processes, *TICKS, *GENOMES

Abstract

Of the 44 species within the genus Dermacentor (Acari: Ixodidae) worldwide, nine are found in the Neotropics and four are endemic to this region. In Colombia, located in the northwestern corner of South America, there are two species of the genus: Dermacentor imitans restricted to the trans-Andean Pacific region, and Dermacentor nitens widely distributed in the country. Elsewhere, D. nitens is found in both the Nearctic and Neotropics, from southern USA to northern Argentina. In the Neotropics, D. nitens is widely distributed including records in Caribbean islands. Molecular analyses of D. nitens collected in the Amazon region of Colombia have shown genetic differences with specimens from other localities of the country, although morphological differences have not been explored. We performed morphological and molecular comparisons of individuals from two natural regions of Colombia: the Orinoquia, and the Amazon. The morphological and morphometric results show that females and males are grouped in two morphotypes: morphotype I from the Orinoquia region, and morphotype II from Leticia in the Amazon region. The molecular analyses supported the morphological results and showed the formation of two well-differentiated sister clades within D. nitens, with divergences between both morphotypes of 3–4% and 5–6% for the 16S rRNA and COI genes, respectively. Species delimitation analyzes and the Poisson Tree Processes model tentatively suggest the presence of two species within the sequences associated with D. nitens in Colombia. The first represented by the sequences from the Orinoquia region evaluated here, together with sequences from other regions of Colombia and other Neotropical countries such as Brazil, Panama, and French Guiana. The second is represented by the sequences of individuals from Leticia, in the Amazon region of Colombia. The results highlight that D. nitens might represent a species complex, but further sampling, experimental crosses, and studies at the level of complete genomes should be performed to obtain additional evidence for species recognition. [ABSTRACT FROM AUTHOR]

Published

2024

40. Dissection of the Genetic Basis of Genotype by Environment Interactions for Morphological Traits and Protein Content in Winter Wheat Panel Grown in Morocco and Spain.

Author

El Baouchi, Adil, Ibriz, Mohammed, Dreisigacker, Susanne, Lopes, Marta S., and Sanchez-Garcia, Miguel

Subjects

WINTER wheat, GENOTYPE-environment interaction, WHEAT farming, WHEAT, WHEAT breeding, GENOME-wide association studies, FACTOR analysis

Abstract

To fulfill the growing demand for wheat consumption, it is important to focus on enhancement breeding strategies targeting key parameters such as yield, thousand kernel weight (TKW), quality characteristics including morphological traits, and protein content. These elements are key to the ongoing and future objectives of wheat breeding programs. Prioritizing these factors will effectively help meet the rising demand for wheat, especially given the challenges posed by unpredictable weather patterns. This study evaluated the morphological traits and protein content of 249 winter wheat varieties and advanced lines grown in eleven different environments in Morocco and Spain incorporating three varied sowing dates. The results showed considerable variability in morphological traits and protein content. Significant correlations were observed among various grain traits, with most grain morphological parameters exhibiting negative correlations with protein content. Differences across environments (p ≤ 0.01) in all traits, genotypes, and genotype by environment interaction were significant. A factorial regression analysis revealed significant impacts of environmental conditions on all grain morphological parameters, protein content, and TKW during the three growth stages. The study identified several high-performing and stable genotypes across diverse environments, providing valuable insights for wheat breeding programs such as genotypes 129, 234, 241, and 243. Genome-Wide Association Studies pinpointed 603 significant markers across 11 environments, spread across chromosomes. Among these, 400 markers were linked with at least two traits or observed in at least two different environments. Moreover, twelve marker-trait associations were detected that surpassed the Bonferroni correction threshold. These findings highlight the importance of targeted breeding efforts to enhance wheat quality and adaptability to different environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2024

41. Influence of Harvesting Stages on Phytonutrients and Antioxidant Properties of Leaves of Five Purple-Fleshed Sweet Potato (Ipomoea batatas) Genotypes.

Author

Tshilongo, Lavhelani, Mianda, Sephora Mutombo, Seke, Faith, Laurie, Sunette M., and Sivakumar, Dharini

Subjects

CAROTENOIDS, SWEET potatoes, GENOTYPES, LIFE cycles (Biology), ACID derivatives, PHYTONUTRIENTS, MINERAL properties

Abstract

Sweet potatoes (Ipomoea batatas) are highly profitable, contribute to food security, and their leaves rich in phytonutrients. This study examined the optimal leaf harvesting stage by harvesting newly formed leaves (leaves 1 to 5) to achieve the highest concentration of carotenoids, phenolic compounds, antioxidant properties and mineral content. Leaves of five purple-fleshed sweet potato genotypes '2019-11-2' and '2019-1-1', 'Purple-purple', and from the USA '08-21P' and '16-283P' were harvested based on tuber life cycle [vegetative 8 weeks after planting (VS-8WAP), tuber initiation (TIS-12WAP), and tuber maturation phases (TMS-16WAP)]. At the 8WAP stage, leaves of genotype '2019-11-2' had the highest concentrations of cyanidin-caffeoyl-sophoroside-glucoside (17.64 mg/kg), cyanidin-caffeoyl-feruloyl-sophoroside-glucoside (41.51 mg/kg), peonidin-caffeoyl-hydroxybenzoyl-sophoriside-glucoside (45.25 mg/kg), and peonidin caffeoyl-feruloyl-sophoriside-glucoside (24.47 mg/kg), as well as antioxidant scavenging activity. In contrast, 'Purple-purple' harvested at TIS-12WAP showed the highest concentration of caffeoylquinic acid derivatives. Zeaxanthin, lutein, all trans-β-carotene, and cis-β-carotene are the most abundant carotenoids in genotype '08-21P' at VS-8WAP. As a result, local genotypes '2019-11-2' harvested at 8WAP and 'Purple-purple' harvested at 12WAP are potential sources of anthocyanins and caffeoylquinic acid derivatives. Conversely, USA's genotype '08-21P' at the VS-8WAP stage is an excellent source of carotenoids. The leaves of USA's '08-21P' genotype and the local '2019-11-2' genotype at TMS-16WAP exhibited the highest content of Fe and Mn, respectively. The study identified the optimal leaf stage for consumption of leaves and for use as a functional ingredient. [ABSTRACT FROM AUTHOR]

Published

2024

42. Individual-based plant‐visitor networks in Brazilian palm swamps under different dryness levels.

Author

Oliveira e Silva, Sabrina Celie, Souza, Camila Silveira, and de Araújo, Walter Santos

Subjects

PALMS, SWAMPS, PLANT size, FLOWERING of plants, ANGIOSPERMS

Abstract

Interactions between plants and floral visitors have a significant influence on the structure and function of ecosystems. The study of these interactions can be performed through the analysis of ecological networks, allowing an understanding of the complexity of ecosystem functioning. The objective of the present study was to verify whether the characteristics of individuals of Byrsonima intermedia (Malpighiaceae) affects its role in the network of interactions with floral visitors in Brazilian palm swamps (veredas). Veredas with different levels of dryness were studied, including one degraded vereda (advanced stage of drying), one intermediate vereda (low drying), and one preserved vereda (no drying). For sampling, we selected 45 individuals of the Byrsonima intermedia plant, 15 in each area, where they were monitored to observe the behavior of floral visitor insects and to measure the characteristics of the plant individuals. As a result, the networks of all sampled area were significantly modular and specialized, with the preserved vereda showing greater specialization. In this study, we observed that the networks of individuals of Byrsonima intermedia and their floral visitors were mainly composed of non-oil-collecting bees. The results show that the abundance of resources offered by each individual in the network, the size of the flower and the plant height are some factors that can determine its role in the network of interactions in the studied veredas. Finally, it is concluded that individual plant interactions can be affected both by environmental characteristics and by plant morphological attributes. [ABSTRACT FROM AUTHOR]

Published

2024

43. Phenotypic diversity of some Iranian grape cultivars and genotypes (Vitis vinifera L.) using morpho-phenological, bunch and berry traits.

Author

Mahdi Mirfatah, Saiyed Mohammad, Rasouli, Mousa, Gholami, Mansour, and Mirzakhani, Abbas

Subjects

BERRIES, CULTIVARS, VITIS vinifera, GRAPES, GENOTYPES, PHENOTYPES, GENETIC variation

Abstract

Purpose: Grape (Vitis vinifera L.) is one of the most important horticultural products that are grown in different parts of Iran and has high nutritional values. In this study, the genetic diversity of cultivars and genotypes of some vineyards of Markazi province were investigated for the preliminary selection of superior cultivars and genotypes in terms of morphological and fruit characteristics for use in grape breeding programs. Research method: For this purpose, grouping and comparing 84 grape cultivars and genotypes were carried out using 70 traits including phenological and vegetative traits, trichome and stomata, bunch and berry traits. Findings: Based on the results, the "Sahebi Hazaveh" cultivar with 1000.17 g had highest an average bunch weight to compare other cultivars and genotypes. Results showed that, some traits such as bunch weight, bunch shoulders, fresh weight, rachis weight, the ratio of bunch weight to peduncle weight, the ratio of rachis weight to bunch weight, dry weight of bunch shoulders, length of the tail of bunch, berry weight, pedicel weight, seed weight and length of seed had a high coefficient of variation. Factor analysis reduced the evaluated traits to 10 main factors showed that they justified 78.38% of the total variance. Cluster analysis divided cultivars and genotypes into 4 main groups at five Euclidean distances. Limitations: No limitations were encountered. Originality/Value: This study indicated that grapes germplasm resources in zone are of noticeable diversities and can be promising for the utilization in the breeding programs. Based on the results, cultivars and genotypes of "Khalili Khondab" region, "Yaghoti", "Sahebi", "Fakhri", "Kharvand" and "Kondori" Hazaveh region and "Sahebi" Aghbolagh region in leafing time, late flowering, sugar percentage, bunch and berry characteristics, stomatal density, standing and lying trichome density in leaves were superior to other cultivars and genotypes. [ABSTRACT FROM AUTHOR]

Published

2024

44. Total Soluble Protein Mediated Morphological Traits in Mustard Treated with Thiourea and Salicylic Acid.

Author

Dey, Shipa Rani, Kumar, Prasann, and Singh, Joginder

Subjects

MUSTARD, GROWTH regulators, PROTEINS, LEAF area, SALICYLIC acid, THIOUREA

Abstract

The total soluble protein-mediated morphological traits in mustard treated with Thiourea and Salicylic acid were investigated. In addition, it tested the hypothesis that the growth regulator salicylic acid protects the photosynthetic apparatus by up-regulating morphological traits. Under natural environmental conditions, seeds were sown in the field, and seed emergence was recorded. For three days after the 15-day stage, plants in the area were treated with thiourea and salicylic acid and allowed to grow for 90 days. Plants were harvested to assess various morphological traits. A follow-up application of SA and Thiourea plants improved plant height, leaf area, internodal length, leaf number, and accelerated plant activity. The up-regulation of morphological traits may have occurred in SA and Thiourea-mediated plants. After treatments, the level of total soluble protein was estimated in the leaves at proposed day intervals. [ABSTRACT FROM AUTHOR]

Published

2024

45. Morphological Traits Are Not Consistently Related to Population Size in Four Migratory Caribou Populations Across North America

Author

Barbara Vuillaume, Mathieu Leblond, Marco Festa‐Bianchet, and Steeve D. Côté

Subjects

aerial survey, large herbivores, morphological traits, population dynamics, Rangifer tarandus, wildlife management, Ecology, QH540-549.5

Abstract

ABSTRACT To develop effective management to maintain or restore populations of large herbivores, wildlife managers require sound empirical data on their variations in size and associated parameters. Many studies have highlighted links between morphological traits of individuals and population density; however, less attention has been devoted to whether or not morphological traits can reliably inform on population size in years when no population estimates are available. We evaluated the relationships between three morphological traits (hind foot length, body mass, and body fat) and population size interpolated over three decades, for four migratory caribou (Rangifer tarandus) herds in northern Canada and Alaska. Our sample included 8865 measurements of 4473 individuals. We used a Bayesian modeling approach to evaluate the relationships between morphology and population size across different sex and age classes, considering different temporal scales and, when possible, phases of population growth or decline. We found that morphological traits were not consistently linked to population size. Statistically significant relationships existed for some combinations of herd and age classes, but weak to absent relationships were more common. Our study suggests that morphological traits alone cannot replace data obtained from aerial surveys to approximate population size when population trends are unknown. We discuss the usefulness of morphological traits to explain population size, and recognize their role as complementary metrics to inform the management and conservation of large herbivores, but conclude that morphological data should not be used to predict population size without information on population trends.

Published

2024

46. Assessment of genetic parameters and heritability of Dendrobium species section Spatulata native to Indonesia

Author

Etik Wukir Tini, Pudji Widodo, Sugiyono, and Zulfa Ulinnuha

Subjects

Diversity, morphological traits, Orchidaceae, plant breeding, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Being one of the most abundant genera of orchids, Dendrobium presents a valuable genetic resource for hybridization programs. Morphological characterization and assessment of genetic parameters plays a crucial role in establishing genetic connections among orchid species within the same genus. The study aims to discern the morphological traits of five Indonesian Dendrobium species, intending to evaluate their potential as candidates for crossbreeding programs. The materials used in this study were D. antennatum, D. discolor, D. stratiotes, D. lineale, D. gouldii, and D. sylvanum. This research examines 21 quantitative traits and 21 qualitative morphological traits of the studied Dendrobium. The findings reveal variations in characters related to flowers, leaves, and pseudobulbs. The analysis of genetic parameters indicates the presence of genetic diversity in traits such as flower stalk length, length of inflorescence, flower series length, flower length, flower width, dorsal sepal width, lateral sepal width, petal length, petal width, labellum length, labellum width, and the number of florets. All observed traits demonstrate high heritability. So, the characters that have high genetic variability and heritability are valuable in selection criteria for plant breeding.

Published

2024

47. Nutrigenomics and Metabolomics of the Bioactive Compounds

Author

Ross, Ivan A. and Ross, Ivan A.

Published

2024

48. Morphological and phylogenetic insights into Berberis species: a tool for species identification and conservation

Author

Azim, Rizwan, Awan, Shahid Iqbal, Tahir, Majid Mahmood, Malik, Faisal Anwar, Alwahibi, Mona S., Ali, M. Ajmal, Elshiki, Mohamed S., and Kamal, Asif

Published

2024

49. Uncovering the hidden diversity of fungi associated with grapevine trunk diseases in the Moroccan vineyards

Author

Kenfaoui, Jihane, Amiri, Said, Goura, Khadija, Radouane, Nabil, Mennani, Mohammed, Belabess, Zineb, Tahiri, Abdessalem, Fontaine, Florence, Barka, Essaid Ait, Ghadraoui, Lahsen El, and Lahlali, Rachid

Published

2024

50. Study of co-localization of QTL for drought tolerance of morphological traits in teosinte introgressed maize population

Author

Kumar, Amarjeet, Adhikari, Sneha, Joshi, Anjali, Singh, Narendra Kumar, Bharati, Alka, Rohit, R., Prasad, Birendra, Dinkar, Vishal, and Singh, Ashutosh

Published

2024