Advances in Molecular Breeding of Ornamental Plants

Fungal diseases pose a major threat to ornamental plants, with an increasing percentage of pathogen-driven host losses. In ornamental plants, management of the majority of fungal diseases primarily depends upon chemical control methods that are often non-specific. Host basal resistance, which is deficient in many ornamental plants, plays a key role in combating diseases. Despite their economic importance, conventional and molecular breeding approaches in ornamental plants to facilitate disease resistance are lagging, and this is predominantly due to their complex genomes, limited availability of gene pools, and degree of heterozygosity. Although genetic engineering in ornamental plants offers feasible methods to overcome the intrinsic barriers of classical breeding, achievements have mainly been reported only in regard to the modification of floral attributes in ornamentals. The unavailability of transformation protocols and candidate gene resources for several ornamental crops presents an obstacle for tackling the functional studies on disease resistance. Recently, multiomics technologies, in combination with genome editing tools, have provided shortcuts to examine the molecular and genetic regulatory mechanisms underlying fungal disease resistance, ultimately leading to the subsequent advances in the development of novel cultivars with desired fungal disease-resistant traits, in ornamental crops. Although fungal diseases constitute the majority of ornamental plant diseases, a comprehensive overview of this highly important fungal disease resistance seems to be insufficient in the field of ornamental horticulture. Hence, in this review, we highlight the representative mechanisms of the fungal infection-related resistance to pathogens in plants, with a focus on ornamental crops. Recent progress in molecular breeding, genetic engineering strategies, and RNAi technologies, such as HIGS and SIGS for the enhancement of fungal disease resistance in various important ornamental crops, is also described.

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Translational Research for Cucurbit Molecular Breeding: Traits, Markers, and Genes

10.3389/978-2-88966-233-3 ◽

2020 ◽

Keyword(s):

Translational Research ◽

Molecular Breeding

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From Functional Genomics to Biotechnology in Ornamental Plants

10.3389/978-2-88945-906-3 ◽

2019 ◽

Keyword(s):

Functional Genomics ◽

Ornamental Plants

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Investigating the Impact of Ornamental Plants Correlated with Indoor Thermal Comfort and Eco-Energy

International Review of Civil Engineering (IRECE) ◽

10.15866/irece.v8i5.12703 ◽

2017 ◽

Vol 8 (5) ◽

pp. 221

Author(s):

Sugiono Sugiono ◽

Suluh E. Swara ◽

Wisnu Wijanarko ◽

Dwi H. Sulistyarini

Keyword(s):

Thermal Comfort ◽

Ornamental Plants ◽

Indoor Thermal Comfort ◽

The Impact

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SPECIES, HOST RANGE, AND IDENTIFICATION KEY OF WHITEFLIES OF BOGOR AND SURROUNDING AREA

JURNAL HAMA DAN PENYAKIT TUMBUHAN TROPIKA ◽

10.23960/j.hptt.218127-150 ◽

2019 ◽

Vol 18 (2) ◽

pp. 127

Author(s):

Purnama Hidayat ◽

Denny Bintoro ◽

Lia Nurulalia ◽

Muhammad Basri

Keyword(s):

Host Range ◽

Host Plants ◽

Ornamental Plants ◽

Identification Key ◽

Agricultural Crops ◽

Surrounding Area ◽

Aleurodicus Dispersus ◽

Agricultural Plants ◽

Surrounding Areas ◽

Forest Plants

Species identification, host range, and identification key of whiteflies of Bogor and surrounding area. Whitefly (Hemiptera: Aleyrodidae) is a group of insects that are small, white, soft-bodied, and easily found on various agricultural crops. Whitefly is a phytophagous insect; some species are important pests in agricultural crops that can cause direct damage and can become vectors of viral diseases. The last few years the damage caused by whitefly in Indonesia has increased. Unfortunately, information about their species and host plants in Indonesia, including in Bogor, is still limited. Kalshoven, in his book entitled Pest of Crops in Indonesia, published in the 1980s reported that there were 9 species of whitefly in Indonesia. The information on the book should be reconfirmed. Therefore, this study was conducted to determine whitefly species and its host plants in Bogor and its surroundings. Whiteflies is identified based on the ‘puparia’ (the last instar of the nymph) collected from various agricultural plants, ornamental plants, weeds, and forest plants. A total of 35 species of whiteflies were collected from 74 species and 29 families of plants. The collwcted whiteflies consist of four species belong to Subfamily Aleurodicinae and 31 species of Subfamily Aleyrodinae. The most often found whitefly species were Aleurodicus dispersus, A. dugesii, and Bemisia tabaci. A dichotomous identification key of whiteflies was completed based on morphological character of 35 collected species. The number of whitefly species in Bogor and surrounding areas were far exceeded the number of species reported previously by Kalshoven from all regions in Indonesia.

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Bagworm Survival and Feeding Preferences as Indicators of Resistance among Maples

Journal of Environmental Horticulture ◽

10.24266/0738-2898-20.3.138 ◽

2002 ◽

Vol 20 (3) ◽

pp. 138-142

Author(s):

William E. Klingeman

Keyword(s):

Host Plant ◽

Ornamental Plants ◽

Larval Feeding ◽

Eastern United States ◽

Feeding Preferences ◽

Survival And Development ◽

Early Instar ◽

Moderate Resistance ◽

Hybrid Cross ◽

Plant Susceptibility

Abstract The bagworm (Thyridopteryx ephemeraeformis (Haworth)) is a polyphagous, native pest of numerous deciduous and evergreen ornamental plants. Bagworm larvae were used to investigate host plant susceptibility among ten species and cultivars of maples that are economically important and commonly encountered in landscapes in the eastern United States. Data analyses from 48-hour choice assays, conducted in the laboratory during 2000 and 2001, indicated that differences existed among maples for bagworm feeding preferences and host plant susceptibility. Results from the 48-hour trials were not as accurate as seasonal no-choice assays, however. No-choice assays during both seasons quantified resistance among maples that limited larval bagworm survival and development. Measurements of larval feeding injury demonstrated resistance in paperbark maple (Acer griseum (Franch.) Pax) and trident maple (A. buergerianum Miq.) when compared with other maples. Laboratory results were corroborated during 2001 by a no-choice field assay, in which early instar bagworm larvae performed well on the majority of maples. In contrast, paperbark maple and trident maple were resistant to bagworm feeding, while ‘Autumn Blaze’ Freeman maple (A. x freemanii E. Murray), a hybrid cross obtained by breeding A. rubrum with A. saccharinum, showed moderate resistance.

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Localized Irrigation System for Thuja Orientalis in Intensive Culture

Ovidius University Annals of Constanta - Series Civil Engineering ◽

10.2478/ouacsce-2018-0014 ◽

2018 ◽

Vol 20 (1) ◽

pp. 119-126

Author(s):

Mădălina Stănescu ◽

Constantin Buta ◽

Geanina Mihai ◽

Lucica Roșu

Keyword(s):

Irrigation System ◽

Ornamental Plants ◽

Point Of View ◽

First Year ◽

Intensive Culture ◽

Technical Point ◽

Production Factors ◽

Thuja Orientalis ◽

Agricultural Farm

Abstract In order to increase the competitiveness of an agricultural holding through the efficient use of the production factors, the modernization of an agricultural farm was carried out by exending the existing greenhouse with at least 700m2 for the intensive cultivation of ornamental plants - Thuja Orientalis. The material is produced by initiating crops in pots, with seedlings grown in pots or transplanting them in pots right after the first year of the multiplication and growing them in containers, appropriate to their size, until reaching their full value. From a technical point of view, reaching the objective will also be possible through a localized irrigation system.

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FUTURE PERSPECTIVE OF PLANT BIOTECHNOLOGY: A REVIEW

Reviews In Food And Agriculture ◽

10.26480/rfna.01.2020.36.41 ◽

2020 ◽

Vol 1 (1) ◽

pp. 36-41

Author(s):

Gaurav Ranabhat ◽

Ashmita Dhakal ◽

Saurav Ranabhat ◽

Ananta Dhakal ◽

Rakshya Aryal

Keyword(s):

Insect Pest ◽

Ornamental Plants ◽

Herbicide Tolerance ◽

Plant Biotechnology ◽

Future Perspective ◽

New Development ◽

Recent Developments ◽

Modern Biotechnology ◽

Stable Yield ◽

As Stress

Modern biotechnology enables an organism to produce a totally new product which the organism does not or cannot produce normally through the incorporation of the technology of ‘Genetic engineering’. Biotechnology shows its technical merits and new development prospects in breeding of new plants varieties with high and stable yield, good quality, as well as stress tolerance and resistance. Some of the most prevailing problems faced in agricultural ecosystems could be solved with the introduction of transgenic crops incorporated with traits for insect pest resistance, herbicide tolerance and resistance to viral diseases. Plant biotechnology has gained importance in the recent past for increasing the quality and quantity of agricultural, horticultural, ornamental plants, and in manipulating the plants for improved agronomic performance. Recent developments in the genome sequencing will have far reaching implications for future agriculture. From this study, we can know that the developing world adopts these fast-changing technologies soon and harness their unprecedented potential for the future benefit of human being.

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