Your search keyword '"Hang Thi Dao"' showing total 12 results

1. Molecular confirmation of the presence of the South American tomato leafminer, Phthorimaea absoluta Meyrick, 1917 (Lepidoptera: Gelechiidae) in Lao PDR

Author

Viengvilay Vorlachith, Sengphet Phanthavong, Somkhit Sengsay, Salah Hafidi, Hang Thi Dao, Chanthason Vongtharone, Bouasa Xaisongkham, Kitan Sitthisay, George A. C. Beattie, Paul Holford, Tara Garrard, Sally Cowan, and Lester W. Burgess

Subjects

Tuta absoluta, Morphology, Molecular identification, Tomato, Eggplant, Zoology, QL1-991

Abstract

Molecular confirmation of the presence of the tomato leafminer, Phthorimaea (Tuta) absoluta Meyrick, 1917 (Lepidoptera: Gelechiidae), in the Paksong region of the Bolaven Plateau in Champasak province in south-western Lao PDR is reported. The moth, which is native to South America, has invaded many countries in Europe, Africa, and Asia since 2006, and, based on regional records possibly entered Lao PDR between 2014 and 2018. It is a devastating pest of solanaceous crops and threatens tomato production worldwide. Further surveys are required to determine its presence in other regions of Lao PDR and effective management programs must be developed to help farmers minimise losses.

Published

2024

2. RETRACTED: Emergence of Asian endemic begomoviruses as a pandemic threat

Author

Muhammad Amir Qureshi, Aamir Lal, Muhammad Shah Nawaz-ul-Rehman, Thuy Thi Bich Vo, Gusti Ngurah Prabu Wira Sanjaya, Phuong Thi Ho, Bupi Nattanong, Eui-Joon Kil, Shah Mohammad Hemayet Jahan, Kyeong-Yeoll Lee, Chi-Wei Tsai, Hang Thi Dao, Trinh Xuan Hoat, Tin-Tin Aye, Nang Kyu Win, Jangha Lee, Sang-Mok Kim, and Sukchan Lee

Subjects

Asia, geminiviruses, begomoviruses, geographical distribution, Tomato leaf curl New Delhi virus, Papaya leaf curl virus, Plant culture, SB1-1110

Abstract

Plant viruses are responsible for the most devastating and commercially significant plant diseases, especially in tropical and subtropical regions. The genus begomovirus is the largest one in the family Geminiviridae, with a single-stranded DNA genome, either monopartite or bipartite. Begomoviruses are transmitted by insect vectors, such as Bemisia tabaci. Begomoviruses are the major causative agents of diseases in agriculture globally. Because of their diversity and mode of evolution, they are thought to be geographic specific. The emerging begomoviruses are of serious concern due to their increasing host range and geographical expansion. Several begomoviruses of Asiatic origin have been reported in Europe, causing massive economic losses; insect-borne transmission of viruses is a critical factor in virus outbreaks in new geographical regions. This review highlights crucial information regarding Asia’s four emerging and highly destructive begomoviruses. We also provided information regarding several less common but still potentially important pathogens of different crops. This information will aid possible direction of future studies in adopting preventive measures to combat these emerging viruses.

Published

2022

3. Genetic Relationship of Fall Armyworm (Spodoptera frugiperda) Populations That Invaded Africa and Asia

Author

Rajendra Acharya, Ashraf Akintayo Akintola, Matabaro Joseph Malekera, Patrick Kamulegeya, Keneth Benedictor Nyakunga, Munyaradzi Kennedy Mutimbu, Yam Kumar Shrestha, Jahan S. M. Hemayet, Trinh Xuan Hoat, Hang Thi Dao, Jeong-Hoon Park, Iksoo Kim, Moon Nam, Sung-Jin Lee, Sang-Mok Kim, Hwal-Su Hwang, and Kyeong-Yeoll Lee

Subjects

Spodoptera frugiperda, invasive pest, corn, invasion, COI, Tpi gene, Science

Abstract

The fall armyworm, Spodoptera frugiperda, is an important agricultural pest native to tropical and subtropical regions of the Western Hemisphere, and has invaded Africa and further spread into most countries of Asia within two years. Here, we analyzed the genetic variation of invaded populations by comparing the nucleotide sequences of two genes: the nuclear Z-chromosome linked gene triose phosphate isomerase (Tpi) and the mitochondrial gene cytochrome oxidase subunit I (COI) of 27 specimens collected in Africa (DR Congo, Tanzania, Uganda, and Zimbabwe) and Asia (Bangladesh, Korea, Nepal, and Vietnam). The results revealed that 25 specimens were from a heterogeneous hybrid (Tpi-corn strain and COI-rice strain; Tpi-C/COI-R) of the corn strain male and rice strain female, but two specimens were from a homogenous corn strain (Tpi-corn strain and COI-corn strain; Tpi-C/COI-C). The further analysis of the fourth exon and the fourth intron sequences of the Tpi gene identified at least four subgroups of the corn strain. These four genetic subgroups were identified in Africa and Asia, suggesting no significant genetic change due to the rapid migration within two years. Our study provides essential information for understanding the genetic diversity of fall armyworm in new habitats.

Published

2021

4. An invasive population of Roseau Cane Scale in the Mississippi River Delta, USA originated from northeastern China

Author

Scott A. Schneider, Hannah J. Broadley, Jeremy C. Andersen, Joseph S. Elkinton, Shaw-Yhi Hwang, Chenxi Liu, Suzuki Noriyuki, Jong-Seok Park, Hang Thi Dao, Matthew L. Lewis, Juli R. Gould, Kim A. Hoelmer, and Rodrigo Diaz

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics

Published

2022

5. Genetic diversity of cryptic species of Bemisia tabaci in Asia

Author

Susanti Mugi Lestari, Mst Fatema Khatun, Rajendra Acharya, Sushant Raj Sharma, Yam Kumar Shrestha, S. M. Hemayet Jahan, Tin‐Tin Aye, Ohn Mar Lynn, Nang Kyu Kyu Win, Trinh Xuan Hoat, Hang Thi Dao, Chi‐Wei Tsai, Jangha Lee, Hwal‐Su Hwang, Eui‐Joon Kil, Sukchan Lee, Sang‐Mok Kim, and Kyeong‐Yeoll Lee

Subjects

Physiology, Insect Science, General Medicine, Biochemistry

Abstract

Bemisia tabaci is a species complex consisting of various genetically different cryptic species worldwide. To understand the genetic characteristics and geographic distribution of cryptic species of B. tabaci in Asia, we conducted an extensive collection of B. tabaci samples in ten Asian countries (Bangladesh, Indonesia, Japan, Korea, Myanmar, Nepal, Philippines, Singapore, Taiwan, and Vietnam) from 2013 to 2020 and determined 56 different partial sequences of mitochondrial cytochrome oxidase subunit I (COI) DNA. In addition, information on 129 COI sequences of B. tabaci identified from 16 Asian countries was downloaded from the GenBank database. Among the total 185 COI sequences of B. tabaci, the sequence variation reached to 19.68%. In addition, there were 31 cryptic species updated from 16 countries in Asia, that is, Asia I, Asia I India, Asia II (1-13), Asia III, Asia IV, Asia V, China 1-6, MEAM (1, 2, K), MED, Australia/Indonesia, Japan (1 and 2). Further, MED cryptic species consisted of 2 clades, Q1 and Q2. This study provides updated information to understand the genetic variation and geographic diversity of B. tabaci in Asia.

Published

2022

6. Emergence of Asian endemic begomoviruses as a pandemic threat

Author

Muhammad Amir Qureshi, Aamir Lal, Muhammad Shah Nawaz-ul-Rehman, Thuy Thi Bich Vo, Gusti Ngurah Prabu Wira Sanjaya, Phuong Thi Ho, Bupi Nattanong, Eui-Joon Kil, Shah Mohammad Hemayet Jahan, Kyeong-Yeoll Lee, Chi-Wei Tsai, Hang Thi Dao, Trinh Xuan Hoat, Tin-Tin Aye, Nang Kyu Win, Jangha Lee, Sang-Mok Kim, and Sukchan Lee

Subjects

Plant Science

Abstract

Plant viruses are responsible for the most devastating and commercially significant plant diseases, especially in tropical and subtropical regions. The genus begomovirus is the largest one in the family Geminiviridae, with a single-stranded DNA genome, either monopartite or bipartite. Begomoviruses are transmitted by insect vectors, such as Bemisia tabaci. Begomoviruses are the major causative agents of diseases in agriculture globally. Because of their diversity and mode of evolution, they are thought to be geographic specific. The emerging begomoviruses are of serious concern due to their increasing host range and geographical expansion. Several begomoviruses of Asiatic origin have been reported in Europe, causing massive economic losses; insect-borne transmission of viruses is a critical factor in virus outbreaks in new geographical regions. This review highlights crucial information regarding Asia’s four emerging and highly destructive begomoviruses. We also provided information regarding several less common but still potentially important pathogens of different crops. This information will aid possible direction of future studies in adopting preventive measures to combat these emerging viruses.

Published

2022

7. Discovery of false coconut scale (Aspidiotus rigidus) and three of its primary parasitoids in Việt Nam, and likely species origins

Author

Gillian W. Watson, Hang Thi Dao, Greg Evans, George Andrew Charles Beattie, Liem Van Nguyen, Paul Holford, Hoa Thi Nguyen, Viet Duc Nguyen, and Jason Mottern

Subjects

0106 biological sciences, 0301 basic medicine, Aspidiotus, Biological pest control, Parasitism, Zoology, Biology, biology.organism_classification, Diaspididae, 01 natural sciences, Parasitoid, 010602 entomology, 03 medical and health sciences, 030104 developmental biology, Aphelinidae, Encyrtidae, Insect Science, Encarsia

Abstract

The false coconut scale, Aspidiotus rigidus Reyne (Hemiptera: Diaspididae), is a serious pest of coconut in the Indonesian and Philippine archipelagos. Field surveys in Viet Nam in 2015–2018 discovered A. rigidus (a new country record). Also found were three of its primary hymenopteran parasitoids: an unidentified ectoparasitic Aphytis species (Aphelinidae) and two endoparasitoids, Comperiella calauanica (Encyrtidae) and Pteroptrix parvipennis (Aphelinidae). Aphytis sp. was the commonest parasitoid; the average level of parasitism of A. rigidus found in six surveys was 46%, in immatures of both sexes and adult females. Comperiella calauanica was recorded in three surveys, with an average parasitism level of 54% in adult female A. rigidus. It was also found attacking Aspidiotus destructor Signoret. Pteroptrix parvipennis was recorded in 47% of second instar A. rigidus in one survey. In molecular phylogenies based on 28S and COI genes, Pteroptrix parvipennis grouped with species of Encarsia. Although A. rigidus occurs in the largest coconut-growing areas in Việt Nam, incidence of the scale is low, and no outbreaks have been recorded. Its parasitoids therefore have potential for use as biological control agents in areas where the scale is problematic. The low incidence of A. rigidus in Việt Nam and the presence of the three parasitoid species there suggests that the scale and these parasitoids originated in Indochina.

Published

2020

8. Genetic Relationship of Fall Armyworm (Spodoptera frugiperda) Populations that Invaded Africa and Asia

Author

Kyeong-Yeoll Lee, Keneth Benedictor Nyakunga, Iksoo Kim, Hwal-Su Hwang, Jeonghoon Park, Trinh Xuan Hoat, Rajendra Acharya, Yam Kumar Shrestha, Hang Thi Dao, Moon Nam, Matabaro Joseph Malekera, Jahan S. M. Hemayet, Sang-Mok Kim, Munyaradzi Kennedy Mutimbu, Patrick Kamulegeya, Sungjin Lee, and Ashraf Akintayo Akintola

Subjects

invasive pest, COI, Genetic diversity, Mitochondrial DNA, Strain (biology), Science, fungi, Zoology, food and beverages, Genetic relationship, Subtropics, Biology, biology.organism_classification, invasion, corn, Spodoptera frugiperda, Insect Science, Genetic variation, parasitic diseases, Fall armyworm, Gene, Tpi gene

Abstract

The fall armyworm, Spodoptera frugiperda, is an important agricultural pest native to tropical and subtropical regions of the Western Hemisphere, and has invaded Africa and further spread into most countries of Asia within two years. Here, we analyzed the genetic variation of invaded populations by comparing the nucleotide sequences of two genes: the nuclear Z-chromosome linked gene triose phosphate isomerase (Tpi) and the mitochondrial gene cytochrome oxidase subunit I (COI) of 27 specimens collected in Africa (DR Congo, Tanzania, Uganda, and Zimbabwe) and Asia (Bangladesh, Korea, Nepal, and Vietnam). The results revealed that 25 specimens were from a heterogeneous hybrid (Tpi-corn strain and COI-rice strain, Tpi-C/COI-R) of the corn strain male and rice strain female, but two specimens were from a homogenous corn strain (Tpi-corn strain and COI-corn strain, Tpi-C/COI-C). The further analysis of the fourth exon and the fourth intron sequences of the Tpi gene identified at least four subgroups of the corn strain. These four genetic subgroups were identified in Africa and Asia, suggesting no significant genetic change due to the rapid migration within two years. Our study provides essential information for understanding the genetic diversity of fall armyworm in new habitats.

Published

2021

9. Emergence of Asian endemic begomoviruses as a pandemic threat.

Author

Qureshi, Muhammad Amir, Lal, Aamir, Nawaz-ul-Rehman, Muhammad Shah, Thuy Thi Bich Vo, Sanjaya, Gusti Ngurah Prabu Wira, Phuong Thi Ho, Nattanong, Bupi, Eui-Joon Kil, Jahan, Shah Mohammad Hemayet, Kyeong-Yeoll Lee, Chi-Wei Tsai, Hang Thi Dao, Trinh Xuan Hoat, Tin-Tin Aye, Nang Kyu Win, Jangha Lee, Sang-Mok Kim, and Sukchan Lee

Subjects

BEGOMOVIRUSES, TOMATO yellow leaf curl virus, PLANT viruses, SINGLE-stranded DNA, AVIAN influenza

Abstract

Plant viruses are responsible for the most devastating and commercially significant plant diseases, especially in tropical and subtropical regions. The genus begomovirus is the largest one in the family Geminiviridae, with a single-stranded DNA genome, either monopartite or bipartite. Begomoviruses are transmitted by insect vectors, such as Bemisia tabaci. Begomoviruses are the major causative agents of diseases in agriculture globally. Because of their diversity and mode of evolution, they are thought to be geographic specific. The emerging begomoviruses are of serious concern due to their increasing host range and geographical expansion. Several begomoviruses of Asiatic origin have been reported in Europe, causing massive economic losses; insect-borne transmission of viruses is a critical factor in virus outbreaks in new geographical regions. This review highlights crucial information regarding Asia's four emerging and highly destructive begomoviruses. We also provided information regarding several less common but still potentially important pathogens of different crops. This information will aid possible direction of future studies in adopting preventive measures to combat these emerging viruses. [ABSTRACT FROM AUTHOR]

Published

2022

10. Four putative entomopathogenic fungi of armoured scale insects on Citrus in Australia

Author

Hang Thi Dao, Paul Holford, Lester W. Burgess, G. Andrew C. Beattie, and Amy Y. Rossman

Subjects

0301 basic medicine, Tubercularia, biology, Hypocreales, 030108 mycology & parasitology, biology.organism_classification, Tubeufiaceae, Agricultural and Biological Sciences (miscellaneous), 03 medical and health sciences, Myriangiaceae, Myriangiales, Botany, Bionectriaceae, Pleosporales, Nectria, Ecology, Evolution, Behavior and Systematics

Abstract

This study led to the discovery of four putative entomopathogenic fungi of armoured scale insects on citrus trees in coastal New South Wales. Two of these species belong in Podonectria as P. coccicola (Ellis & Everh.) Petch (syn. Tetracrium coccicola (Hohn.) Ellis & Everh.) and P. novae-zelandiae Dingley. Members of this genus are grown in culture for the first time. Formerly placed in the Pleosporales, Tubeufiaceae, or more recently in the Tubeufiales, these species are herein placed in the new family Podonectriaceae fam. nov., Pleosporales. Another species is placed in the Hypocreales, Bionectriaceae as Clonostachys coccicola (J.A. Stev.) H.T. Dao comb. nov. (basionym Tubercularia coccicola J.A. Stev., syn. Nectria tuberculariae Petch). The fourth species is Myriangium citri Henn. (Myriangiales, Myriangiaceae). Each fungal species is characterized and the phylogenetic placement confirmed by molecular analyses of the ITS and 28 s rDNA regions. In addition, their biology is noted, including location of the fungi within tree canopies.

Published

2016

11. Systematics and biology of two species of Microcera associated with armoured scales on citrus in Australia

Author

Lester W. Burgess, Amy Y. Rossman, Hang Thi Dao, G. Andrew C. Beattie, and Paul Holford

Subjects

Aspidiotus nerii, Systematics, Honeydew, biology, Ecology, Host (biology), ved/biology, Iridomyrmex rufoniger, ved/biology.organism_classification_rank.species, biology.organism_classification, Diaspididae, Agricultural and Biological Sciences (miscellaneous), Lepidosaphes beckii, Ecology, Evolution, Behavior and Systematics, Aonidiella aurantii

Abstract

Microcera coccophila has been regarded as an entomopathogen of armoured scales in Australia since the late 1800s. We confirmed its identity and presence in Australia using morphological and molecular data. We also confirmed that a related species, M. larvarum, is an entomopathogen of armoured scales in Australia. M. coccophila was recorded as a parasite of Aonidiella aurantii, A. citrina, Lepidosaphes beckii, L. gloverii and Unaspis citri in citrus orchards on the Central Coast of New South Wales. We recorded M. larvarum in these orchards in association with A. aurantii and one or more hosts that could not be identified due to their condition. The sexual and asexual morphs of both species are described. Genetic variation suggested that the taxa could represent various phylogenetic species. We fulfilled Koch’s postulates for both fungi in separate bioassays with Aspidiotus nerii. Infection was not dependent on the reproductive status of the scale. A laboratory study showed that Iridomyrmex rufoniger, a common ant in Australian citrus orchards, can passively disperse conidia of M. coccophila. Field observations suggested that the prevalence of the two fungal parasites in orchards is influenced by host scale densities, climate, and foraging by I. rufoniger workers on honeydew produced by their sternorrhynchan trophobionts, particularly Saissetia oleae. These foraging activities induced dense populations of A. aurantii by disrupting the activities of the scale’s natural arthropod enemies; this was followed by epizootics of M. coccophila that decimated populations of the scale.

Published

2015

12. Temperature effects on Korean entomopathogenic nematodes, Steinernema glaseri and S. longicaudum, and their symbiotic bacteria.

Author

Hang TD, Choo HY, Lee DW, Lee SM, Kaya HK, and Park CG

Subjects

Animals, Biotechnology, Korea, Larva growth & development, Larva microbiology, Larva parasitology, Moths growth & development, Moths microbiology, Movement, Pest Control, Biological, Rhabditida growth & development, Rhabditida pathogenicity, Temperature, Virulence, Xenorhabdus growth & development, Xenorhabdus pathogenicity, Moths parasitology, Rhabditida microbiology, Rhabditida physiology, Symbiosis, Xenorhabdus physiology

Abstract

We investigated the temperature effects on the virulence, development, reproduction, and motility of two Korean isolates of entomopathogenic nematodes, Steinernema glaseri Dongrae strain and S. longicaudum Nonsan strain. In addition, we studied the growth and virulence of their respective symbiotic bacterium, Xenorhabdus poinarii for S. glaseri and Xenorhabdus sp. for S. longicaudum, in an insect host at different temperatures. Insects infected with the nematode-bacterium complex or the symbiotic bacterium was placed at 13 degrees C, 18 degrees C, 24 degrees C, 30 degrees C, or 35 degrees C in the dark and the various parameters were monitored. Both nematode species caused mortality at all temperatures tested, with higher mortalities occurring at temperatures between 24 degrees C and 30 degrees C. However, S. longicaudum was better adapted to cold temperatures and caused higher mortality at 18 degrees C than S. glaseri. Both nematode species developed to adult at all temperatures, but no progeny production occurred at 13 degrees C or 35 degrees C. For S. glaseri, nematode progeny production was best at inocula levels above 20 infective juveniles/host at 24 degrees C and 30 degrees C, but for S. longicaudum, progeny production was generally better at 24 degrees C. Steinernema glaseri showed the greatest motility at 30 degrees C, whereas S. longicaudum showed good motility at 24 degrees C and 30 degrees C. Both bacterial species grew at all tested temperatures, but Xenorhabdus sp. was more virulent at low temperatures (13 degrees C and 18 degrees C) than X poinarii.

Published

2007