Genetic Structure and Potential Environmental Determinants of Local Genetic Diversity in Japanese Honeybees (Apis cerana japonica)

Nagamitsu, Teruyoshi; Yasuda, Mika; Saito-Morooka, Fuki; Inoue, Maki; Nishiyama, Mio; Goka, Koichi; Sugiura, Shinji; Maetô, Kaoru; Okabe, Kimiko; Taki, Hisatomo

doi:10.1371/journal.pone.0167233

Cited by 14 publications

(9 citation statements)

References 37 publications

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“…The evolutionary effects of this fragmentation are evident from declines in genome-wide diversity along a 142-km urbanization gradient from forested and rural areas to the urban core ( Fig. 3B) (42). Two rodent species in Warsaw, Poland (43), and Dundee, Scotland (44), that are ecologically similar to white-footed mice also exhibited lower genetic diversity within urban populations and greater differentiation between them, when compared with that of rural populations.…”

Section: Eastern Water Dragonmentioning

confidence: 99%

Evolution of life in urban environments

Johnson

Munshi‐South

2017

Science

742

691

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Our planet is an increasingly urbanized landscape, with over half of the human population residing in cities. Despite advances in urban ecology, we do not adequately understand how urbanization affects the evolution of organisms, nor how this evolution may affect ecosystems and human health. Here, we review evidence for the effects of urbanization on the evolution of microbes, plants, and animals that inhabit cities. Urbanization affects adaptive and nonadaptive evolutionary processes that shape the genetic diversity within and between populations. Rapid adaptation has facilitated the success of some native species in urban areas, but it has also allowed human pests and disease to spread more rapidly. The nascent field of urban evolution brings together efforts to understand evolution in response to environmental change while developing new hypotheses concerning adaptation to urban infrastructure and human socioeconomic activity. The next generation of research on urban evolution will provide critical insight into the importance of evolution for sustainable interactions between humans and our city environments.

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Section: Eastern Water Dragonmentioning

confidence: 99%

Evolution of life in urban environments

Johnson

Munshi‐South

2017

Science

742

691

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“…It was reported in other species that climatic variables play an important role in the formation of genetic structure (e.g., Ding et al, 2018). Climate variables affected the genetic structure of Aedes aegypti (Mendonça et al, 2014;Gao et al, 2021), Apis cerana japonica (Nagamitsu et al, 2016), and Trialeurodes vaporariorum (Ovčarenko et al, 2014). Thus, seasonality of climatic variables is an important factor affecting genetic structure.…”

Section: Distinct Population Structure and Associated Shaping Factorsmentioning

confidence: 95%

New insights into the genetic structure of the outbreak-prone migratory locust

Song

Sang-zi

Liu³

et al. 2022

Preprint

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The genetic structure of species is shaped by several natural and non-natural factors. Although geographical isolation and natural barriers are important causes of genetic structure formation of species, the effects of dispersal potential and population outbreaks remain controversial. Here, we explored this issue in a migratory locust, Ceracris kiangsu, which is an important pest that feeds on bamboo in East and Southeastern Asia. Based on 187 newly sequenced and 286 previously sequenced mitochondrial COI fragments, and 8 nuclear microsatellite loci, we studied the genetic diversity and population genetic structure of C. kiangsu. Both molecular markers revealed high genetic diversity of the geographic populations that possibly resulted from the high flight capacity of the locust. The degree of genetic differentiation among populations was also high, and Mantel test showed that it was significantly correlated with geographical distance. Principal coordinate analysis and STRUCTURE results revealed two genetically different groups, a South China (S-China) Group and a Southeast Asia (SE-Asia) Group. Climate variables well explained the population genetic structure. The demographic history showed that the S-China Group experienced population expansion in the Holocene, whereas the SE-Asia Group was consistently stable. A southeast population (Guangxi) might have been a refuge prior to Holocene expansion. Our study demonstrates a distinct population structure maintained in this migratory insect and reveals the potential effect of past climatic change, geographical isolation, and ecological factors on the evolution of their genetic structure.

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“…Urban beekeeping became one of the main ways of beekeeping in different regions of the world [3]. Urban environment can contribute to maintenance of diversity of honeybee species including native species [4]. Alternatively, the issues of pesticides are becoming serious in some countries [5], although the honeybee colony declines can be caused by complex factors including pesticides and global honey trade [6].…”

Section: Introductionmentioning

confidence: 99%

“…The size of urban areas is relatively small as compared with farmland and other habitats of honeybee. However, the roles of urban areas to maintain the genetic diversity of organisms and to enhance the environmental awareness of citizens are suggested by the existing studies [4,7], and urban beekeeping is expected as a main way of beekeeping. In the promotion of urban beekeeping, rack of scientific evidence of behavior of urban honeybee is a serious issue.…”

Section: Introductionmentioning

confidence: 99%

Application of Environmental DNA: Honey Bee behavior and Ecosystems for Sustainable Beekeeping

Matsuzawa¹,

Kohsaka²,

Uchiyama³

2020

Modern Beekeeping - Bases for Sustainable Production

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Honey prices can vary widely depending on the production areas and/or the nectar plants, and quality control, therefore, is of great significance. Also, the identification of the nectar plants is one of the major concerns regardless of the purposes of beekeeping, namely, commercial, recreational, or for environmental education. In recent years, the scope for the application of eDNA technology has been expanding. We conducted an eDNA analysis of the 14 types of honey sold in supermarkets. The result showed that all of the honey samples contained DNA of several plants and revealed that there was no monofloral honey. In addition, there were cases where there was a discrepancy between the plants listed on the labels and the species whose DNA was the most prominent in the sample. DNA analysis of honey is considered to have the potential to enhance exponentially the understanding of the plant species that honeybees used as nectar plants and their proportions.

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Genetic Structure and Potential Environmental Determinants of Local Genetic Diversity in Japanese Honeybees (Apis cerana japonica)

Cited by 14 publications

References 37 publications

Evolution of life in urban environments

Evolution of life in urban environments

New insights into the genetic structure of the outbreak-prone migratory locust

Application of Environmental DNA: Honey Bee behavior and Ecosystems for Sustainable Beekeeping

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