Genomics-assisted breeding in fruit trees

Iwata, Hiroyoshi; Minamikawa, Mai F.; Kajiya‐Kanegae, Hiromi; Ishimori, Motoyuki; Hayashi, Takeshi

doi:10.1270/jsbbs.66.100

Cited by 110 publications

(95 citation statements)

References 144 publications

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“…For example, Fuji and Pinklady apples require only 200-400 chill hours, and Minnie Royal and Royal Lee are two cherry varieties that only require 200-300 chill hours (davewilson.com). One problem with relying on breeding for adapting to climate change is that breeding programs for woody perennial crops such as grapes, berries, and especially fruit trees are hindered by their long generation time, large plant size, long juvenile phase, and the necessity to wait for the physiological maturity of the plant to assess the marketable product (Iwata et al 2016;McFerson 2015). However, advancements in markerassisted breeding and phenomics are promising and could accelerate development of climateready fruit and nut crops (Batley and Edwards 2016;Lobos and Hancock 2015).…”

Section: Adaptation Strategiesmentioning

confidence: 99%

Specialty fruit production in the Pacific Northwest: adaptation strategies for a changing climate

et al. 2017

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Specialty fruit crops represent a substantial portion of the value of agricultural production in the Pacific Northwest. Climate change may threaten water sources, lengthen the dry season, raise temperatures during both the winter chilling period and the growing season, and facilitate the spread of fungal diseases and insects. Such changes have the potential to substantially reduce net returns due to increased input costs and altered yields and product quality. Many management strategies that are already being used to prolong growing seasons in marginal production areas and to improve production and quality in established production regions may also be useful as adaptation strategies under a changing climate. These strategies mostly involve moderating temperatures and controlling or compensating for mismatches between phenology and seasonal weather conditions.

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Section: Adaptation Strategiesmentioning

confidence: 99%

Specialty fruit production in the Pacific Northwest: adaptation strategies for a changing climate

et al. 2017

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“…Advanced and conventional breeding Marker-assisted selection is used widely in major crop development and has begun to be applied to orphan crops. Examples include the annual orphan crops of foxtail millet (Setaria italica; Jia et al, 2013) and pigeonpea (Cajanus cajan; Varshney et al, 2017) and, increasingly, a range of perennial plants (Iwata et al, 2016;Migicovsky & Myles, 2017). However, the relatively high costs of phenotyping remain a constraint in most cases (Varshney et al, 2012).…”

Section: Available Genetic Improvement Methods For New and Orphan Cropsmentioning

confidence: 99%

The role of genetics in mainstreaming the production of new and orphan crops to diversify food systems and support human nutrition

et al. 2019

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Summary Especially in low‐income nations, new and orphan crops provide important opportunities to improve diet quality and the sustainability of food production, being rich in nutrients, capable of fitting into multiple niches in production systems, and relatively adapted to low‐input conditions. The evolving space for these crops in production systems presents particular genetic improvement requirements that extensive gene pools are able to accommodate. Particular needs for genetic development identified in part with plant breeders relate to three areas of fundamental importance for addressing food production and human demographic trends and associated challenges, namely: facilitating integration into production systems; improving the processability of crop products; and reducing farm labour requirements. Here, we relate diverse involved target genes and crop development techniques. These techniques include transgressive methods that involve defining exemplar crop models for effective new and orphan crop improvement pathways. Research on new and orphan crops not only supports the genetic improvement of these crops, but they serve as important models for understanding crop evolutionary processes more broadly, guiding further major crop evolution. The bridging position of orphan crops between new and major crops provides unique opportunities for investigating genetic approaches for de novo domestications and major crop ‘rewildings’.

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“…Breeding programs for fruit and nut trees with superior fruit traits, disease resistance, and postharvest physiology are adopting advanced technologies such as marker-assisted breeding and genome-wide association mapping to make these long breeding cycles as efficient as possible (Hardner et al, 2016;Iwata et al, 2016). Fast-growing hardwood trees like poplar (Populus spp.)…”

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confidence: 99%

Virus-Induced Flowering: An Application of Reproductive Biology to Benefit Plant Research and Breeding

et al. 2016

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Genomics-assisted breeding in fruit trees

Cited by 110 publications

References 144 publications

Specialty fruit production in the Pacific Northwest: adaptation strategies for a changing climate

Specialty fruit production in the Pacific Northwest: adaptation strategies for a changing climate

The role of genetics in mainstreaming the production of new and orphan crops to diversify food systems and support human nutrition

Virus-Induced Flowering: An Application of Reproductive Biology to Benefit Plant Research and Breeding

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