Exploring the Role of Calcium in the Physiology of Tulipa: A Comparative Study across Different Cultivars

Inkham, Chaiartid; Wichapeng, Weerasak; Panjama, Kanokwan; Ruamrungsri, Soraya

doi:10.3390/horticulturae10010013

Horticulturae

2023

DOI: 10.3390/horticulturae10010013

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Exploring the Role of Calcium in the Physiology of Tulipa: A Comparative Study across Different Cultivars

Chaiartid Inkham,

Weerasak Wichapeng,

Kanokwan Panjama

et al.

Abstract: Cut tulip flower production, typically cultivated using hydroponic systems, often faces the challenge of stem toppling due to calcium (Ca) deficiency in the nutrient solution. Growers generally grow various tulip cultivars to meet market demands. In hydroponic production, plants require precise nutrient concentrations to promote growth and development, as the food reserves in the mother bulb are insufficient and vary depending on the plant cultivar. This study aimed to assess the impact of different tulip cult… Show more

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Determination of the effect of GA₃ applications on plant development, nutrient content change and analysis of root architectural features using ML artificial neural network modelling in Tulipa saxatilis

Sari

2024

Folia Horticulturae

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This study has determined the effects of gibberallic acid (GA3) on the plant development, root and bulb nutrient content in the wild species Tulipa saxatilis. Spray treatments of GA3 at 0, 100, 200 and 400 ppm wereconducted in research. 400 ppm is the most effective application, which increased plant height and flower stem length by 39% and 35.6%, respectively. On the other hand, the highest results in flower number were achieved in the control (2). Vase life and number of bulblets were 42% and 42.9% higher, respectively, at 100 ppm than in the control. Also, 200 ppm was the best application to increase mother bulb weight and diameter by 117.1% and 21.4%, respectively. Of bulb were found only N and P contents to be lower than the control; most effective application was 100 ppm for K, Fe, Cu and Mn content; 200 ppm for Ca and Zn content; and 400 ppm for Mn content. Although GA3 applications had different effects on root architecture, 200 ppm was generally the most effective. As a result, an increase in plant height, bulb characteristics, bulb number and vase life was achieved in T. saxatilis, which has a relatively small stem length. Additionally, the study employed machine learning algorithms, including LR, MCC, MLP, J48, PART and Baggin. The input variables were assessed to model and predict the root traits. Performance percentages of ML algorithms were listed as LR > MCC > MLP > J48 > PART > Baggin.

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Determination of the effect of GA₃ applications on plant development, nutrient content change and analysis of root architectural features using ML artificial neural network modelling in Tulipa saxatilis

Sari

2024

Folia Horticulturae

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show abstract

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Exploring the Role of Calcium in the Physiology of Tulipa: A Comparative Study across Different Cultivars

Cited by 1 publication

References 28 publications

Determination of the effect of GA₃ applications on plant development, nutrient content change and analysis of root architectural features using ML artificial neural network modelling in Tulipa saxatilis

Determination of the effect of GA₃ applications on plant development, nutrient content change and analysis of root architectural features using ML artificial neural network modelling in Tulipa saxatilis

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Exploring the Role of Calcium in the Physiology of Tulipa: A Comparative Study across Different Cultivars

Cited by 1 publication

References 28 publications

Determination of the effect of GA3 applications on plant development, nutrient content change and analysis of root architectural features using ML artificial neural network modelling in Tulipa saxatilis

Determination of the effect of GA3 applications on plant development, nutrient content change and analysis of root architectural features using ML artificial neural network modelling in Tulipa saxatilis

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Product

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Determination of the effect of GA₃ applications on plant development, nutrient content change and analysis of root architectural features using ML artificial neural network modelling in Tulipa saxatilis

Determination of the effect of GA₃ applications on plant development, nutrient content change and analysis of root architectural features using ML artificial neural network modelling in Tulipa saxatilis