Jiaqi Shi scite author profile

SUMMARY Hemp (Cannabis sativa) is a highly versatile crop with a multitude of applications, from textiles, biofuel and building material to high‐value food products for consumer markets. Furthermore, non‐hallucinogenic cannabinoids like cannabidiol (CBD), which can be extracted from female hemp flowers, are potentially valuable pharmacological compounds. In addition, hemp has high carbon sequestration potential associated with its rapid growth rate. Therefore, the hemp industry is gaining more traction and breeding hemp cultivars adapted to local climate conditions or bred for specific applications is becoming increasingly important. Here, we present a method for the rapid generation cycling (speed breeding) of hemp. The speed breeding protocol makes use of the photoperiod sensitivity of Cannabis. It encompasses vegetative growth of the plants for 2 weeks under continuous light, followed by 4 weeks under short‐day conditions, during which flower induction, pollination and seed development proceed, and finally a seed ripening phase under continuous light and water stress. With the protocol described here, a generation time of under 9 weeks (61 days) from seed to seed can be achieved. Furthermore, our method synchronises the flowering time of different hemp cultivars, thus facilitating crosses between cultivars. The extremely short generation time will enable hemp researchers and breeders to perform crosses in a time‐efficient way and generate new hemp cultivars with defined genetic characteristics over a short period of time.

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The Cream of the Crop: Biology, Breeding and Applications of Cannabis sativa

Schilling

Dowling

Shi

et al. 2020

Preprint

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Cannabis sativa is an extraordinarily versatile species. Hemp and its cousin marijuana, both C. sativa, have been used for millennia as a source of fibre, oil and for medicinal, spiritual and recreational purposes. Because the consumption of Cannabis can have psychoactive effects, the plant has been widely banned throughout the last century. In the past decade, evidence of its medicinal properties did lead to the relaxation of legislation in many countries around the world. Consequently, the genetics and development of Cannabis as well as Cannabis-derived products are the subject of renewed attention.Here, we review the biology of C. sativa, including recent insights from taxonomy, morphology and genomics, with an emphasis on the genetics of cannabinoid synthesis. Because the female Cannabis flower is of special interest as the site of cannabinoid synthesis, we explore flower development, flowering time well as the species' unique sex determination system in detail. Furthermore, we outline the tremendous medicinal, engineering, and environmental opportunities that Cannabis bears. Together, the picture emerges that our understanding of Cannabis biology currently progresses at an unusual speed. A future challenge will be to preserve the multi-purpose nature of Cannabis, and to harness its medicinal properties and sustainability advantages simultaneously.

show abstract

The Cream of the Crop: Biology, Breeding, and Applications ofCannabis Sativa

Schilling

Dowling

Shi

et al. 2021

View full text Add to dashboard Cite

Cannabis sativais an extraordinarily versatile species. Hemp and its cousin marijuana, bothC. sativa, have been used for millennia as a source of fibre, oil, and for medicinal, spiritual, and recreational purposes. Because the consumption ofCannabiscan have psychoactive effects, the plant has been widely banned throughout the last century. In the past decade, evidence of its medicinal properties did lead to the relaxation of legislation in many countries around the world. Consequently, the genetics and development ofCannabisas well asCannabis‐derived products are the subject of renewed attention.Here, we review the biology ofC. sativa,including recent insights from taxonomy, morphology, and genomics, with an emphasis on the genetics of cannabinoid synthesis. Because the femaleCannabisflower is of special interest as the site of cannabinoid synthesis, we explore flower development, flowering time well as the species' unique sex determination system in detail.Furthermore, we outline the tremendous medicinal, engineering, and environmental opportunities thatCannabisbears. Together, the picture emerges that our understanding ofCannabisbiology currently progresses at an unusual speed. A future challenge will be to preserve the multi‐purpose nature ofCannabis, and to harness its medicinal properties and sustainability advantages simultaneously.

show abstract

The Cream of the Crop: Biology, Breeding and Applications of Cannabis sativa

Schilling

Dowling

Shi

et al. 2020

Preprint

View full text Add to dashboard Cite

show abstract

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Jiaqi Shi

The effect of electrolyzed water on decontamination, germination and γ-aminobutyric acid accumulation of brown rice

A protocol for rapid generation cycling (speed breeding) of hemp (Cannabis sativa) for research and agriculture

The Cream of the Crop: Biology, Breeding and Applications of Cannabis sativa

The Cream of the Crop: Biology, Breeding, and Applications ofCannabis Sativa

The Cream of the Crop: Biology, Breeding and Applications of Cannabis sativa

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