Development of a robust hydroponic method for screening of sunflower (Helianthus annuus L.) accessions for tolerance to heat and osmotic stress

Shehzad, Muhammad; Gul, Rao Samran; Rauf, Saeed; Clarindo, Wellington Ronildo; Al–Khayri, Jameel M.; Hussain, M.; Munir, Hassan; Ghaffari, Mehdi; Nazir, Shahid; Hussain, Majid

doi:10.1038/s41598-021-81072-3

Cited by 9 publications

(4 citation statements)

References 33 publications

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“…154 While artificial light is also provided in vertical farming, protected cultivation, and closed systems for soilless farm-ing, 155 natural light is used in open system farming. 156 Optimum requirements of light intensity in soilless cultivation of crops are reported in the literature: 12 h per day for spinach in a growth chamber, 158 12−13 h for green bean in a transparent roof, 159 14−18 h for Cucumber in closed chambers, 160 8−10 h for watermelon in a greenhouse, 161 14−18 h for mustard in a vertical growth chamber, 162 12−13 h for brinjal/eggplant in a greenhouse, 163 10−12 h for potato in aeroponics based culture, 164 14−18 h for bell pepper in a greenhouse, 165 18 h for ginger in a greenhouse, 166 6 h for kohlrabi in a closed plant factory system, 166 12 h for chili in a greenhouse, 167 8−10 h for radish in a greenhouse, 168 10−12 h for onion in a greenhouse, 169 and 12 h for okra in a greenhouse. 170 Water.…”

Section: Crop Productionmentioning

confidence: 99%

Crop Hydroponics, Phyto-hydroponics, Crop Production, and Factors Affecting Soilless Culture

Sharma

Manpoong

Devadas³

et al. 2022

ACS Agric. Sci. Technol.

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Soilless culture is emerging as a popular tool to grow agricultural and horticultural crops in open systems, closed systems, protected cultivation, vertical farming, and soil affected or stress-affected areas. The climatic factors and biometabolism are integrated in stimulating quality phenological growth and biochemical and physiological processes in soilless crop production. Soilless crop production (SCP) has immense potential to build a soilless green revolution and for sustaining crop production. Information on substrate and water based culture collected for the period from 1996 to 2022 is reviewed and analyzed in this work. The performance of crops in soilless culture improves morphological and physiological parameters compared with soil based cultivation. The distinct environmental factors positively influence soilless culture to exhibit cellular processes, biological processes, molecular processes, and the ecosystem in the crop. The impacts of ecological factors are more efficient in closed systems compared with open systems. The salient features of metabolites and biometabolism in substrate based media were identified with transcriptome analysis and found to be different compared with soil based cultivation. Developing simple nutrient formulations suited for soilless culture is essential to popularize this technology among marginal farmers.

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Section: Crop Productionmentioning

confidence: 99%

Crop Hydroponics, Phyto-hydroponics, Crop Production, and Factors Affecting Soilless Culture

Sharma

Manpoong

Devadas³

et al. 2022

ACS Agric. Sci. Technol.

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“…This system provide uniform environment for growth condition till flowering stage by providing proper nutrient availability based on the crop. Being effective and rapid method of screening, many researchers around the world used this hydroponic system to decipher the variability of majority of traits in major crops at seedling stage viz., for nitrogen use efficiency in wheat 16 , 17 drought in maize 18 , heat stress in sunflower 19 and drought in rice 20 .…”

Section: Introductionmentioning

confidence: 99%

Root plasticity: an effective selection technique for identification of drought tolerant maize (Zea mays L.) inbred lines

Wajhat-un-nisa

Sandhu

Ranjan

et al. 2023

Sci Rep

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The decline in tropical maize productivity due to climatic vulnerability is a matter of serious concern as being a food and feed/fodder commodity, it is an important crop for the sustenance of human life. Genetic selections and development of water deficit stress (WDS) tolerant commercial varieties have potential to offset the impact of changing temperatures and precipitation. For trait-specific genetic enhancement, there is a need to understand a suite of adaptation strategies for crop. We studied the response of various shoot and root traits in 71 maize inbreds of diverse origin under simulated sub-optimal water supply controlled conditions, delineated an array of traits which must be considered for selection for WDS and validated the inbreds harbouring tolerance to WDS for selection of authentic donor lines to develop WDS tolerant hybrids. A large data set was limited to uncorrelated traits based on principal component analysis and variability among maize lines was deciphered using heatmap dendrogram. We also reported the relevance of root anatomical plasticity to the inherent potential of lines to combat WDS. We recommend incorporating the changes in number and diameter of xylem and metaxylem under simulated controlled conditions as a part of precise phenotyping for WDS in maize. The study led to identification of WDS tolerant line LM22 in maize.

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“…Identified as an advanced cultivation method in soilless culture, hydroponics directly contacts plant roots with nutrient solution to ensure plant growth and development. Compared with the traditional soil planting, hydroponics technology has the advantages of short growth cycle, effective resource saving, flexible cultivation condition, and reduced infection rate of diseases and pests ( Shehzad et al, 2021 ). In addition, hydroponic method is capable of helping in the observation and management, as it can accurately control the growth and development process of plants ( Sugiharta et al, 2019 ).…”

Section: Introductionmentioning

confidence: 99%

Physiological and Morphological Responses of Hydroponically Grown Pear Rootstock Under Phosphorus Treatment

Chen

Jin

et al. 2021

Front. Plant Sci.

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Phosphorus (P) is an essential macronutrient for the growth and development of fruit trees, playing an important role in photosynthesis, nucleic acid synthesis, and enzyme activity regulation. The plasticity of plant phenotypic has been investigated in diverse species under conditions of P-deficiency or P-excess. Based on these researches, P level fluctuations in different species result in different characteristics of the response. Nevertheless, little is known about the response of pear seedling rootstock (Pyrus betulifolia Bunge) to the changing of P levels. To explore the effects of different levels of P on the growth of pear seedling rootstock, we performed the hydroponic assays to determine and analyze the biological indexes including growth parameters, photosynthetic rate, root and shoot morphological traits, and concentrations of macro- and micronutrients. The results show that either deficiency or excess of P inhibited the growth and development of pear seedling rootstock. Root growth (down 44.8%), photosynthetic rate (down 59.8%), and acid phosphatase (ACP) activity (down 44.4%) were inhibited under the P-deficiency conditions (0mM), compared with normal P conditions (1mM). On the other hand, dark green leaves, suppression of root elongation (down 18.8%), and photosynthetic rate (down 25%) were observed under regimes of excessive P, compared with normal P conditions (1mM). Furthermore, the root concentration of not only P, but also those of other mineral nutrients were affected by either P treatment. In brief, these results indicated that a careful choice of P fertilizer supply is crucial to ensuring normal growth and development of pear seedling rootstock.

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Development of a robust hydroponic method for screening of sunflower (Helianthus annuus L.) accessions for tolerance to heat and osmotic stress

Cited by 9 publications

References 33 publications

Crop Hydroponics, Phyto-hydroponics, Crop Production, and Factors Affecting Soilless Culture

Crop Hydroponics, Phyto-hydroponics, Crop Production, and Factors Affecting Soilless Culture

Root plasticity: an effective selection technique for identification of drought tolerant maize (Zea mays L.) inbred lines

Physiological and Morphological Responses of Hydroponically Grown Pear Rootstock Under Phosphorus Treatment

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