Prediction and Improvement of Yield and Dry Matter Production Based on Modeling and Non-destructive Measurement in Year-round Greenhouse Tomatoes-Reference-Cited by-同舟云学术

Prediction and Improvement of Yield and Dry Matter Production Based on Modeling and Non-destructive Measurement in Year-round Greenhouse Tomatoes

Published:2020 Issue:4 Volume:89 Page:425-431
ISSN:2189-0102
Container-title:The Horticulture Journal
language:en
Short-container-title:Hortic J

Author:

Saito Takeshi¹,Kawasaki Yasushi¹,Ahn Dong-Hyuku¹,Ohyama Akio¹,Higashide Tadahisa¹

Affiliation:

1. NARO Institute of Vegetable and Floriculture Science

Publisher

Japanese Society for Horticultural Science

Subject

Horticulture,Plant Science

Link

https://www.jstage.jst.go.jp/article/hortj/89/4/89_UTD-170/_pdf

Reference17 articles.

1. Ahn, D. H., T. Higashide, Y. Iwasaki, Y. Kawasaki and A. Nakano. 2015. Estimation of leaf area index of cucumbers (Cucumis sativa L.) trained on a high wire. Bulletin of National Institute Vegetable and Tea Sci. 14: 23–29.

2. Cho, Y. Y., S. Oh, M. M. Oh and J. E. Son. 2007. Estimation of individual leaf area, fresh weight, and dry weight of hydroponically grown cucumbers (Cucumis sativus L.) using leaf length, width, and SPAD value. Scientia Hortic. 111: 330–334.

3. Higashide, T. 2013. Greenhouse tomato yield and solar radiation. p. 3–18. In: T. Higashide (ed.). Tomatoes: Cultivation, varieties and nutrition. Nova Science Publishers, New York.

4. Higashide, T. 2015. Factors pertaining to dry matter production in tomato plants. p. 1–23. In: T. Higashide (ed.). Solanum lycopersicum: Production, biochemistry and health benefits. Nova Science Publishers, New York.

5. Higashide, T. 2018. Review of dry matter production and light interception by plants for yield improvement of greenhouse tomatoes in Japan. Hort. Res. (Japan) 17: 133–146 (In Japanese with English abstract).

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