Your search keyword '"Chun-Sen Ma"' showing total 4 results

1. Bacterial Symbionts Confer Thermal Tolerance to Cereal Aphids Rhopalosiphum padi and Sitobion avenae

Author

Muhammad Zeeshan Majeed, Samy Sayed, Zhang Bo, Ahmed Raza, and Chun-Sen Ma

Subjects

wheat aphids, thermal traits, critical thermal maxima, chronic temperature tolerance, aphid endosymbionts, bacterial gene abundance, Science

Abstract

High-temperature events are evidenced to exert significant influence on the population performance and thermal biology of insects, such as aphids. However, it is not yet clear whether the bacterial symbionts of insects mediate the thermal tolerance traits of their hosts. This study is intended to assess the putative association among the chronic and acute thermal tolerance of two cereal aphid species, Rhopalosiphum padi (L.) and Sitobion avenae (F.), and the abundance of their bacterial symbionts. The clones of aphids were collected randomly from different fields of wheat crops and were maintained under laboratory conditions. Basal and acclimated CTmax and chronic thermal tolerance indices were measured for 5-day-old apterous aphid individuals and the abundance (gene copy numbers) of aphid-specific and total (16S rRNA) bacterial symbionts were determined using real-time RT-qPCR. The results reveal that R. padi individuals were more temperature tolerant under chronic exposure to 31 °C and also exhibited about 1.0 °C higher acclimated and basal CTmax values than those of S. avenae. Moreover, a significantly higher bacterial symbionts’ gene abundance was recorded in temperature-tolerant aphid individuals than the susceptible ones for both aphid species. Although total bacterial (16S rRNA) abundance per aphid was higher in S. avenae than R. padi, the gene abundance of aphid-specific bacterial symbionts was nearly alike for both of the aphid species. Nevertheless, basal and acclimated CTmax values were positively and significantly associated with the gene abundance of total symbiont density, Buchnera aphidicola, Serratia symbiotica, Hamilton defensa, Regiella insecticola and Spiroplasma spp. for R. padi, and with the total symbiont density, total bacteria (16S rRNA) and with all aphid-specific bacterial symbionts (except Spiroplasma spp.) for S. avenae. The overall study results corroborate the potential role of the bacterial symbionts of aphids in conferring thermal tolerance to their hosts.

Published

2022

2. Insights into the Maternal Ancestry of Côte d’Ivoire Honeybees Using the Intergenic Region COI-COII

Author

Krouholé Abdoul Salam Coulibaly, Muhammad Zeeshan Majeed, Chao Chen, Kolo YEO, Wei Shi, and Chun-Sen Ma

Subjects

Apis mellifera, genetic diversity, haplotypes, Côte d’Ivoire, population structure, Science

Abstract

Honeybee populations in Côte d’Ivoire have been previously identified as belonging to one subspecies, Apis mellifera scutellata, but other studies have since reported a mixed population consisting of A. m. adansonii and A. m. jemenitica. The population structure and the geographic distribution of honeybees in Côte d’Ivoire remain unclear. This study aimed to profile the population structure of honeybees and their biogeography in Côte d’Ivoire. A total of 33 honeybee colonies were sampled from 15 localities to investigate the maternal ancestry of indigenous honeybee populations using the DraI COI-COII mtDNA test. The results revealed that the honeybee population in Côte d’Ivoire is composed of African haplotypes, all belonging to the AI sublineage. Haplotypes A1 and A4 were recorded with five new sequence variants, including three types of haplotype A1 and two types of haplotype A4. The A1e variant was the most frequent in the A. m. adansonii distributional area. The distribution of the haplotype variants was correlated with the climate pattern in Côte d’Ivoire. This is the first study in Côte d’Ivoire that gives insights into the biogeography and mitotype structure of the local honeybee populations.

Published

2019

3. Bacterial Symbionts Confer Thermal Tolerance to Cereal Aphids

Author

Muhammad Zeeshan, Majeed, Samy, Sayed, Zhang, Bo, Ahmed, Raza, and Chun-Sen, Ma

Abstract

High-temperature events are evidenced to exert significant influence on the population performance and thermal biology of insects, such as aphids. However, it is not yet clear whether the bacterial symbionts of insects mediate the thermal tolerance traits of their hosts. This study is intended to assess the putative association among the chronic and acute thermal tolerance of two cereal aphid species

Published

2021

4. Insights into the Maternal Ancestry of Côte d’Ivoire Honeybees Using the Intergenic Region COI-COII

Author

Kolo Yeo, Krouholé Abdoul Salam Coulibaly, Muhammad Zeeshan Majeed, Chao Chen, Wei Shi, and Chun-Sen Ma

Subjects

0106 biological sciences, education.field_of_study, Genetic diversity, Mitochondrial DNA, haplotypes, Biogeography, Côte d’Ivoire, Haplotype, Population, Apis mellifera, Cote d ivoire, population structure, genetic diversity, Biology, Subspecies, 010603 evolutionary biology, 01 natural sciences, 010602 entomology, Intergenic region, Evolutionary biology, Insect Science, lcsh:Q, education, lcsh:Science

Abstract

Honeybee populations in C&ocirc, te d&rsquo, Ivoire have been previously identified as belonging to one subspecies, Apis mellifera scutellata, but other studies have since reported a mixed population consisting of A. m. adansonii and A. m. jemenitica. The population structure and the geographic distribution of honeybees in C&ocirc, Ivoire remain unclear. This study aimed to profile the population structure of honeybees and their biogeography in C&ocirc, Ivoire. A total of 33 honeybee colonies were sampled from 15 localities to investigate the maternal ancestry of indigenous honeybee populations using the DraI COI-COII mtDNA test. The results revealed that the honeybee population in C&ocirc, Ivoire is composed of African haplotypes, all belonging to the AI sublineage. Haplotypes A1 and A4 were recorded with five new sequence variants, including three types of haplotype A1 and two types of haplotype A4. The A1e variant was the most frequent in the A. m. adansonii distributional area. The distribution of the haplotype variants was correlated with the climate pattern in C&ocirc, Ivoire. This is the first study in C&ocirc, Ivoire that gives insights into the biogeography and mitotype structure of the local honeybee populations.

Published

2019