Multivariate Analysis of Relations between Preharvest Environmental Factors, Postharvest Morphological and Physiological Factors, and Vase Life of Cut ‘Asami Red’ Roses

In, Byung-Chun; Motomura, Shinichi; Inamoto, Katsuhiko; Doi, Motoaki; Mori, Genjiro

doi:10.2503/jjshs.76.66

Cited by 42 publications

(19 citation statements)

References 20 publications

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“…Hence, it was probably more influenced by factors taking place before xylem blockage was fully developed. This is in agreement with the findings of In et al (2007). The water loss to water uptake ratio on the 1 st day after harvest was negatively and highly correlated with rose commercial longevity (Eq.…”

Section: Water Balance Of Flower Shoots During Postharvest Lifesupporting

confidence: 82%

“…This preharvest climate parameter has been considered to have a high repercussion on subsequent vase life of flower shoots (Mortensen and Giserøld, 1999;Marissen and Benninga, 2001;In et al, 2007). For instance, the shorter vase life in winter has been put down to the high RH of this season (Slootweg et al, 2001).…”

Section: Water Balance Of Flower Shoots During Postharvest Lifementioning

confidence: 99%

“…For instance, the shorter vase life in winter has been put down to the high RH of this season (Slootweg et al, 2001). RH affects water loss of flower shoots through its effect on ABA levels, which influence stomatal anatomy and functionality (Franks and Farquhar, 2001;Torre and Fjeld, 2001;Torre et al, 2003;In et al, 2007). Rose plants grown under low RH conditions have smaller functional stomata and are able to regulate their water relations properly after harvest, resulting therefore in a longer vase life than rose plants grown under high RH conditions (Torre et al, 2003;In et al, 2007).…”

Section: Water Balance Of Flower Shoots During Postharvest Lifementioning

confidence: 99%

“…RH affects water loss of flower shoots through its effect on ABA levels, which influence stomatal anatomy and functionality (Franks and Farquhar, 2001;Torre and Fjeld, 2001;Torre et al, 2003;In et al, 2007). Rose plants grown under low RH conditions have smaller functional stomata and are able to regulate their water relations properly after harvest, resulting therefore in a longer vase life than rose plants grown under high RH conditions (Torre et al, 2003;In et al, 2007). Also, Torre and Fjeld (2001) observed that the osmotic concentration of roses grown at RH=90% was 10% lower than in roses grown at RH=70%, both in leaves and petals, suggesting a lower ability to prevent loss of turgor when water deficit develops in the tissue.…”

Section: Water Balance Of Flower Shoots During Postharvest Lifementioning

confidence: 99%

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Study of Nutrient Solution Management in Soilless Rose Cultivation Through the Analysis of Physiological Parameters and Nutrient Absorption

Sánchez¹

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Gracias Ángeles por lo que me has enseñado y por estar a mi lado durante estos años.Muchísimas gracias a Enrique Moltó por acogerme durante el último año, y un millón de gracias para todos los compañeros de Agroingeniería por vuestra alegría y por haberme hecho sentir una más.Me gustaría expresar mi agradecimiento a Amparo T., Mónica, Jesús, Pepe y Bati por vuestra ayuda en los ensayos y vuestras palabras de ánimo cuando más lo necesitaba.Gracias a Juan, Mª Jo y Marisa por los buenos ratos que hemos pasado.Thanks to Dietmar Schwarz and Peter Kläring for giving me the opportunity to visit IGZ and for your warm welcome.Muchas gracias a Manolo por lo que he aprendido trabajando contigo. Gracias por estar siempre dispuesto a ayudarme.Muchas gracias a Carmen por ser mi amiga, por nuestras conversaciones en el bus y por tus buenos consejos.Gracias a mis padres, hermanos y a mi yaya por vuestro cariño incondicional, por ser mi apoyo y mi guía durante toda mi vida. Gracias a Pablo por tu paciencia y amor, por protegerme siempre, por darme cariño y paz. Sin vosotros esto no habría sido posible.

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Section: Water Balance Of Flower Shoots During Postharvest Lifesupporting

confidence: 82%

Section: Water Balance Of Flower Shoots During Postharvest Lifementioning

confidence: 99%

Section: Water Balance Of Flower Shoots During Postharvest Lifementioning

confidence: 99%

Section: Water Balance Of Flower Shoots During Postharvest Lifementioning

confidence: 99%

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Study of Nutrient Solution Management in Soilless Rose Cultivation Through the Analysis of Physiological Parameters and Nutrient Absorption

Sánchez¹

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“…Among the environmental conditions during the cultivation period that influence the vase life of cut flowers air humidity is one of the most important, as shown for roses Fjeld, 1995, 1998;Mortensen and Gislerød, 1997, 1999, 2000In et al, 2007). This effect of air humidity during the pre-harvest phase is mainly due to its effect on stomatal behaviour of the cut flowers.…”

Section: Introductionmentioning

confidence: 99%

Effect of (Changes In) Air Humidity on Transpiration and (Adaptation Of) Stomatal Closure of Tradescantia Leaves During Water Stress

Meeteren¹,

Nejad²,

Harbinson³

2009

Acta Hortic.

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This paper summarises our recent research on the physiological effects of prolonged high RH during growth on stomatal function and we discuss possibilities that arise from this work for reducing postharvest quality problems in cut flowers. Chlorophyll fluorescence imaging was used to measure stomatal closure in response to desiccation of Tradescantia virginiana leaves grown under high (90%) and moderate (55%) relative humidities, or transferred between these humidities. Stomata of plants transferred from moderate RH conditions to high RH showed the same diminished closure in response to desiccation, as did stomata that developed at high RH. This response was found both when the leaves were either fully expanded or still actively expanding during the moderate RH pre-treatment. However, when leaves were grown in high RH prior to a moderate RH treatment, the reduced stomatal closure response to desiccation was only reversed in leaves (regions) which were still actively expanding during moderate RH treatment. This indicates that with respect to stomatal responses to desiccation, high RH leaf regions have only a limited capacity to adapt after transfer to moderate RH conditions. It is suggested that the diminished stomatal closure in high RH-grown plants is the result of changes in the signalling pathway for ABA-related closure induced by a prolonged period (several days) at a low ABA level. A short increase of VPD (by decreasing RH or increasing temperature) once every 2 or 3 days is probably sufficient to overcome vase life problems of cut flowers grown at high RH. Testing the acclimation ability of stomata to desiccation by transferring high RH grown plants to low VPD for just a few days would be a simply and effective screening procedure for genotypes with more adaptable stomata. INTRODUCTIONAmong the environmental conditions during the cultivation period that influence the vase life of cut flowers air humidity is one of the most important, as shown for roses (Mortensen and Fjeld, 1995, 1998; Mortensen and Gislerød, 1997, 1999, 2000 Torre et al., 2001; In et al., 2007). This effect of air humidity during the pre-harvest phase is mainly due to its effect on stomatal behaviour of the cut flowers. The closure of stomata of roses grown at high RH is less sensitive to water stress and darkness (Torre and Fjeld, 2001; Torre et al., 2001) and the cut stems show excessive water loss in indoor conditions (Mortensen and Gislerød, 1999). To obtain the optimal response to multi-factorial environmental changes, stomata sense many environmental factors and have the ability to integrate environmental and endogenous signals (Kearns and Assmann, 1993; Hetherington and Woodward, 2003). Besides the short-term effects of these factors, the history of growth conditions can affect the fine-tuning of the stomatal response. The reason why stomata of high RH-grown leaves are less hydrosensitive is not clear. Desiccation is one of the principal causes of plant death in rooted leafy cuttings and micropropagated plants transferre...

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Water Relations of Cut Flowers: An Update

Doorn

2012

Horticultural Reviews

101

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Multivariate Analysis of Relations between Preharvest Environmental Factors, Postharvest Morphological and Physiological Factors, and Vase Life of Cut ‘Asami Red’ Roses

Cited by 42 publications

References 20 publications

Study of Nutrient Solution Management in Soilless Rose Cultivation Through the Analysis of Physiological Parameters and Nutrient Absorption

Study of Nutrient Solution Management in Soilless Rose Cultivation Through the Analysis of Physiological Parameters and Nutrient Absorption

Effect of (Changes In) Air Humidity on Transpiration and (Adaptation Of) Stomatal Closure of Tradescantia Leaves During Water Stress

Water Relations of Cut Flowers: An Update

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