Empirical Model for the Estimation of Whole-plant Photosynthetic Rate of Cherry Tomato Grown in a Commercial Greenhouse

Yayu ROMDHONAH; Naomichi FUJIUCHI; Noriko TAKAHASHI; Hiroshige NISHINA; Kotaro TAKAYAMA

doi:10.2525/ecb.59.117

Effects of the reciprocal grafting on the photosynthesis of two genotypes tomato offspring under selenium stress

E3S Web of Conferences ◽

10.1051/e3sconf/201913607008 ◽

2019 ◽

Vol 136 ◽

pp. 07008

Author(s):

Shiyao Shan ◽

Huizhong Luo ◽

Jinpeng Zhu ◽

Zhiyu Li ◽

Huanxiu Li

Keyword(s):

Stomatal Conductance ◽

Net Photosynthetic Rate ◽

Photosynthetic Rate ◽

Transpiration Rate ◽

Functional Activity ◽

Theoretical Basis ◽

Photosynthetic Capacity ◽

Growth Characteristics ◽

Cherry Tomato ◽

Fresh Weight

To study the effects of the reciprocal grafting on the photosynthesis of two genotypes tomato offspring under selenium stress, red ball cherry tomato cherry 5-5-1 and yellow ball cherry tomato yellow RTY-3-2 post-grafting generation (red scion, red rootstock, yellow scion and yellow rootstock) and seedlings (red CK and yellow CK) planted in 10 mg·kg-1 selenium soil, and the pot experiment was carried out to study the effects of the reciprocal grafting on the growth characteristics and the photosynthesis of tomato offspring under selenium stress. The results showed that grafting increased the fresh weight of the organs of the offspring, the ratio of root to shoot, and the functional activity of the roots of the plants, which was conducive to the growth of tomato offspring. Simultaneously, it could effectively improve the photosynthetic capacity of grafted offspring leaves at the seedling stage. The grafted offspring of rootstocks had the best effect on improving the net photosynthetic rate, stomatal conductance and transpiration rate and stomatal conductance of tomato leaves, and decreased intercellular CO2 concentration. Among them, the best effect of yellow rootstock was to provide ideas and theoretical basis for the production of selenium-enriched tomatoes in the selenium-deficient areas in the future.

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Empirical model of Skeletonema costatum photosynthetic rate, with applications in the San Francisco Bay estuary

Advances in Water Resources ◽

10.1016/0309-1708(78)90040-4 ◽

1978 ◽

Vol 1 (5) ◽

pp. 267-274 ◽

Cited By ~ 14

Author(s):

James E. Cloern

Keyword(s):

San Francisco ◽

Photosynthetic Rate ◽

Empirical Model ◽

San Francisco Bay ◽

Skeletonema Costatum ◽

San Francisco Bay Estuary

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Estimation of Whole Plant Photosynthetic Rate of Irwin Mango under Artificial and Natural Lights Using a Three-Dimensional Plant Model and Ray-Tracing

International Journal of Molecular Sciences ◽

10.3390/ijms19010152 ◽

2018 ◽

Vol 19 (1) ◽

pp. 152 ◽

Cited By ~ 14

Author(s):

Dae Jung ◽

Joon Lee ◽

Woo Kang ◽

In Hwang ◽

Jung Son

Keyword(s):

Ray Tracing ◽

Photosynthetic Rate ◽

Three Dimensional ◽

Plant Model ◽

Whole Plant

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Whole-Plant Response of Selected Woody Landscape Species to Uniconazole

Journal of Environmental Horticulture ◽

10.24266/0738-2898-9.3.163 ◽

1991 ◽

Vol 9 (3) ◽

pp. 163-167

Author(s):

Stuart L. Warren ◽

Frank A. Blazich ◽

Mack Thetford

Keyword(s):

Stomatal Conductance ◽

Net Photosynthetic Rate ◽

Leaf Area ◽

Photosynthetic Rate ◽

Foliar Spray ◽

Dry Weight ◽

Specific Leaf Weight ◽

Whole Plant ◽

Top Dry Weight ◽

Leaf Dry Weight

Abstract Uniconazole was applied as a foliar spray or medium drench to six woody landscape species: ‘Sunglow’ azalea; flame azalea; ‘Spectabilis’ forsythia; ‘Compacta’ holly; ‘Nellie R. Stevens’ holly; and mountain pieris. One hundred days after uniconazole application, leaf, stem, and top dry weight of all species, except flame azalea and mountain pieris, decreased as uniconazole concentration increased. Compared to controls, stem and leaf dry weight were reduced by uniconazole 18 to 60% and 13 to 32%, respectively, depending on species and method of application. Stem dry weight was reduced to a greater degree, compared to leaf dry weight. For all species, drench application was more effective than foliar spray in reducing leaf, stem, and top dry weight. Leaf area of ‘Spectabilis’ forsythia and ‘Nellie R. Stevens’ holly decreased with increasing rates. However, specific leaf weight was not affected. Uniconazole did not significantly affect leaf net photosynthetic rate, stomatal conductance or internal leaf CO2 concentrations in ‘Spectabilis’ forsythia or ‘Nellie R. Stevens’ holly. No phytotoxicity was observed on any species.

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Whole-plant Photosynthesis of Containerized Hydrangeas and Abelias as Affected by Substrate Moisture Content

HortScience ◽

10.21273/hortsci.40.4.1111d ◽

2005 ◽

Vol 40 (4) ◽

pp. 1111D-1111 ◽

Cited By ~ 1

Author(s):

Marc W. van Iersel ◽

Sue Dove

Keyword(s):

Growth Rate ◽

Drought Stress ◽

Moisture Content ◽

Water Potential ◽

Photosynthetic Rate ◽

Severe Drought ◽

Whole Plant ◽

Growing Medium ◽

Plant Photosynthesis ◽

Substrate Moisture

Efficient water use in nurseries is increasingly important. In recent years, new soil moisture sensors (ECH2O probes) have become available, making it possible to monitor the moisture content of the growing medium in containers. One piece of information that is lacking for fully-automated irrigation systems is how much water actually needs to be present in the growing medium to prevent detrimental effects of drought on plants. We determined the effect of substrate moisture on photosynthesis and plant water relations of hydrangea and abelia. Growth rates of these species were measured during two subsequent drying cycles to determine how drought affects the growth rate of these species. Whole-plant photosynthesis, an indicator of growth rate, of both species remained stable as the volumetric moisture content of the substrate dropped from 25% to 15%, with pronounced decreases in photosynthesis at lower substrate moisture levels. Abelias and hydrangeas wilted when the substrate moisture level dropped to 6.3% and 8.3%, respectively. At wilting, abelias had lower leaf water potential (–3.7 MPa) than hydrangeas (–1.8 MPa). After the plants were watered at the end of the first drying cycle, the photosynthesis of the plants did not recover to pre-stress rates, indicating that the drought stress caused a long-term reduction in photosynthesis. Despite the more severe drought stress in the abelias (both a lower substrate water content and lower water potential at wilting), abelias recovered better from drought than hydrangeas. After the plants were watered at the end of the first drying cycle, the photosynthetic rate of abelias recovered to ≈70%, while the photosynthetic rate of the hydrangeas recovered to only 62% of the pre-stress rate.

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Effect of Pot Size on Various Characteristics Related to Photosynthetic Matter Production in Soybean Plants

International Journal of Agronomy ◽

10.1155/2012/751731 ◽

2012 ◽

Vol 2012 ◽

pp. 1-7 ◽

Cited By ~ 6

Author(s):

Minobu Kasai ◽

Keisuke Koide ◽

Yuya Ichikawa

Keyword(s):

Plant Growth ◽

Photosynthetic Rate ◽

Starch Content ◽

Rubisco Activity ◽

Matter Production ◽

Whole Plant ◽

Pot Size ◽

Sink Capacity ◽

Soybean Plants ◽

Leaf Photosynthetic Rate

Despite the wide uses of potted plants, information on how pot size affects plant photosynthetic matter production is still considerably limited. This study investigated with soybean plants how transplantation into larger pots affects various characteristics related to photosynthetic matter production. The transplantation was analyzed to increase leaf photosynthetic rate, transpiration rate, and stomatal conductance without affecting significantly leaf intercellular CO2concentration, implicating that the transplantation induced equal increases in the rate of CO2diffusion via leaf stomata and the rate of CO2fixation in leaf photosynthetic cells. Analyses of Rubisco activity and contents of a substrate (ribulose-1,5-bisphosphate (RuBP)) for Rubisco and total protein in leaf suggested that an increase in leaf Rubisco activity, which is likely to result from an increase in leaf Rubisco content, could contribute to the transplantation-induced increase in leaf photosynthetic rate. Analyses of leaf major photosynthetic carbohydrates and dry weights of source and sink organs revealed that transplantation increased plant sink capacity that uses leaf starch, inducing a decrease in leaf starch content and an increase in whole plant growth, particularly, growth of sink organs. Previously, in the same soybean species, it was demonstrated that negative correlation exists between leaf starch content and photosynthetic rate and that accumulation of starch in leaf decreases the rate of CO2diffusion within leaf. Thus, it was suggested that the transplantation-induced increase in plant sink capacity decreasing leaf starch content could cause the transplantation-induced increase in leaf photosynthetic rate by inducing an increase in the rate of CO2diffusion within leaf and thereby substantiating an increase in leaf Rubisco activity in vivo. It was therefore concluded that transplantation of soybean plants into larger pots attempted in this study increased the plant photosynthetic matter production by increasing mainly sink capacity that uses leaf starch for whole plant growth, particularly, growth of sink organs.

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Is Whole‐Plant Photosynthetic Rate Proportional to Leaf Area? A Test of Scalings and a Logistic Equation by Leaf Demography Census

The American Naturalist ◽

10.1086/597604 ◽

2009 ◽

Vol 173 (5) ◽

pp. 640-649 ◽

Cited By ~ 35

Author(s):

Kohei Koyama ◽

Kihachiro Kikuzawa

Keyword(s):

Leaf Area ◽

Photosynthetic Rate ◽

Logistic Equation ◽

Leaf Demography ◽

Whole Plant

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Some photosynthetic and growth responses of Annona glabra L. seedlings to soil flooding

Acta Botanica Brasilica ◽

10.1590/s0102-33062005000400025 ◽

2005 ◽

Vol 19 (4) ◽

pp. 905-911 ◽

Cited By ~ 17

Author(s):

Marcelo S. Mielke ◽

Elyabe M. Matos ◽

Virginia B. Couto ◽

Alex-Alan F. de Almeida ◽

Fábio P. Gomes ◽

...

Keyword(s):

Stomatal Conductance ◽

Net Photosynthetic Rate ◽

Photosynthetic Rate ◽

Leaf Gas Exchange ◽

Leaf Age ◽

High Survival ◽

Growth Responses ◽

Soil Flooding ◽

Whole Plant ◽

Annona Glabra

An experiment was conducted with the aim to analyze the effects of soil flooding and leaf position on net primary productivity and whole plant carbon balance of Annona glabra L. (Annonaceae) seedlings, a highly flood-tolerant tree, native to the tropical Americas. All seedlings survived a period of 56 days of flooding without symptoms of stress. Flooding induced significant increments in root, stem and whole-plant biomass (P <0.01), and in the root:shoot mass ratio (P <0.05). Measurements of leaf gas exchange were conducted at days four, 11, 18 and 56 after flooding, on the first (L1), fourth (L4) and seventh (L7) fully expanded leaves from the apex of each seedling. The mean values of stomatal conductance to water vapour (g s) and net photosynthetic rate (A) in the control seedlings were around 0.26 mol m-2s-1 and 8.8 µmol m-2s-1, respectively. Significant reductions (P <0.05) in A were observed from L1 to L7 in controls at all four days of measurements. Reductions in A with increasing leaf age also ocurred for flooded plants, but only at days four and 18. Flooding induced significant changes in gs (P <0.05), reaching 65% of controls at day four but 152% of controls at day 56. Based on the results we conclude that the high survival and growth rates of A. glabra seedlings are directly related to the capacity to mantain a high stomatal conductance and net photosynthetic rate under soil flooding.

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