Effect of irrigation suspension on the growth, water state and production of spinach (Spinacia olerácea L.) plants

Reyes, Andrea Johana; Alvarado-Sanabria, Oscar H; Álvarez-Herrera, Javier Giovanni

doi:10.15446/agron.colomb.v36n2.67167

Cited by 5 publications

(8 citation statements)

References 13 publications

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“…The decrease in turgor pressure causes cell development to be one of the physiological processes most vulnerable to water stress decline, either a decrease in cell expansion or inhibition of cell division that contributes to the plant's height. This also goes well with what was found in the previous research study, where the reduction in cellular turgidity and CO 2 uptake once plants are subjected to a water shortage causes the plant to grow slowly and have a low photosynthetic rate, which in return results in poor plant development and lesser dry mass accumulation (Reyes et al, 2018). According to a previous study by Maseko et al (2019), a further increase in water application to 100% ETc (water crop requirement based on evapotranspiration) (47 cm) does not significantly enhance plant height during the first season in Amaranthus cruentus plant.…”

Section: Plant Heightsupporting

confidence: 91%

“…3, week 3 shows that there are not quite significant differences. At the same time, another study addresses that despite being exposed to particular levels of water stress, plants do not exhibit changes in chlorophyll synthesis (Reyes et al, 2018). It might be because plants are transplanted into 2 L pots with a mixture of peat and soil (2:1), so they remain moist.…”

Section: Chlorophyll Contentmentioning

confidence: 99%

“…Special emphasis is placed on producing vegetables, which require more irrigation than other crops and whose yield components are strongly influenced by water stress (Pereira et al, 2019). Research by Reyes et al (2018) reported that ten days of irrigation suspension reduced the moisture content of spinach (Spinacia olerácea L.) plants, while another study shows that water deficit decreased the chlorophylls and increased the biochemical properties of these plants (Seymen, 2021).…”

Section: Introductionmentioning

confidence: 99%

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Growth, Physiology, and Water Status of Sissoo Spinach (Alternanthera sissoo) Under Different Irrigation Regimes

2023

Agrivita.J.Agr.Sci

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The rising popularity of the Sissoo spinach is growing in the vegetable industry along with the increase in its demand. However, water stress conditions may affect the plants' growth, physiology, and water status. Hence, the research study aims to evaluate Sissoo spinach's growth, physiological parameters, and water status once subjected to water deficit. Besides, it also focuses on determining the optimum water requirement for Sissoo spinach. There were four different water treatments consisting of 100% (well-watered), 75% (moderate water deficit), 50% (high water deficit), and 25% (severe water deficit) water treatments arranged in Randomized Complete Block Design (RCBD) with five replications in the greenhouse. The research findings show that the results are statistically significant for most parameters: plant height, number of leaves, chlorophyll content, stomatal conductances, plant water status, and chlorophyll fluorescence. Contrarily, the stem diameter, fresh weight, dry weight, and leaf area data do not show any significant differences. As it comes to the point of research findings, the optimum water requirement for Sissoo spinach was 50% water treatment. This is crucial to prevent unnecessary, avoidable water application onto plants.

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Section: Plant Heightsupporting

confidence: 91%

Section: Chlorophyll Contentmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Growth, Physiology, and Water Status of Sissoo Spinach (Alternanthera sissoo) Under Different Irrigation Regimes

2023

Agrivita.J.Agr.Sci

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“…Similar results are also reported by Hanson et al (2006) [14] and Nasarullah et al (2022) [15] . Further, Reyes et al (2018) [16] observed the reduced cellular turgor leads to reduced CO 2 assimilation under water shortage leading to a slower plant growth and lower photosynthetic rate.…”

Section: Results and Discussion Plant Height And Number Of Leavesmentioning

confidence: 99%

Effect of different sensor-based irrigation levels on growth, yield and economic viability of spinach (Spinacia oleracea L.) under reduced runoff farming

BB,

Thimmegowda,

Vasanthi

et al. 2024

Int. J. Res. Agron.

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Sensor based irrigation scheduling plays a vital role to rationalize irrigation water. A field experiment was conducted at AICRP on Dryland Agriculture, UAS, GKVK, Bengaluru during 2021-22 and 2022-23 to study the effect of irrigation scheduling in spinach Irrigation was assessed at 75, 50 and 25% ASM along with surface irrigation as a control. Scheduling irrigation at 75% ASM resulted in significantly higher growth attributes viz., plant height (36.18 and 37.83 cm, respectively), number of leaves (22.61 and 22.19, respectively), leaf length (34.17, 35.23 cm, respectively) leaf width (11.10 and 10.29 cm, respectively), fresh weight (55.95 and 63.38 g plant -1 ) and dry weight (6.20 and 5.06 g plant -1 ) at 30 and 60 DAS, respectively. Furthermore, scheduling irrigation at 75% ASM resulted in the higher mean leaf yield (3.85 t ha -1 ) compared to surface irrigation (2.89 t ha -1 ). Water use compared to surface irrigation decreased by 60.00 and 57.18 per cent at 75% ASM, 51.90 and 50.92 per cent at 50% ASM and 46.00 and 48.00 per cent at 25% ASM during 2021 and 2022, respectively. WUE followed a descending order: 75% ASM (3.15 kg m -3 ) > 50% ASM (2.28 kg m -3 ) > 25% ASM (1.06 kg m -3 ) > surface irrigation (0.96 kg m -3 ). The gross return (Rs. 456966 ha -1 ), net return (Rs. 223736 ha -1 ) and B: C ratio (1.96) recorded substantially higher at 75% ASM over surface irrigation.

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“…Ekinci et al [ 18 ] confirmed that chlorophyll content in spinach leaves decreased under different irrigation levels. However, Reyes et al [ 19 ] stated that if the plants are not subjected to intense drought stress, their chlorophyll content will not be affected, showing the significance of drought intensity on plants, especially spinach.…”

Section: Introductionmentioning

confidence: 99%

A Natural Bio-Stimulant Consisting of a Mixture of Fish Protein Hydrolysates and Kelp Extract Enhances the Physiological, Biochemical and Growth Responses of Spinach under Different Water Levels

Liatile

Potgieter

Moloi

2022

Plants

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Spinach (Spinacia oleracea L.) is a highly nutritious, desirable green leafy vegetable, which is less tolerant to drought. This study was conducted to establish the impact of a natural bio-stimulant consisting of a mixture of fish protein hydrolysates and kelp extract (trade name, Xcell Boost) on the physiological and biochemical responses as well as vegetative growth of spinach (Spinacia oleracea L.) under different water levels (100% (full irrigation), 50% (mild drought stress) and 30% (severe drought stress) water holding capacity). Bio-stimulant application at any strength (single, BX1 or double, BX2) had no effect on the photochemical reactions. The application of bio-stimulant at double strength concentration (BX2) increased the chlorophyll and carotenoid contents, as well as the activities of antioxidative enzymes, ascorbate peroxidase (APX) and guaiacol peroxidase (GPX), under drought stress. Application at single strength (BX1) increased the normalised difference vegetation index (NDVI), stomatal conductance, accumulation of osmoprotectants (proline and total soluble sugars) and reduced electrolyte leakage under drought stress. Furthermore, bio-stimulant applications at either concentration induced remarkable increases in plant height, leaf area, stem dry weight, root length and root moisture. Under BX2, APX and stomatal conductance positively correlated with stem dry weight, while root length positively correlated with total chlorophyll content. These results show that Xcell Boost is a highly advantageous bio-stimulant for increasing the tolerance of spinach to drought stress, which can most likely benefit other crops grown in semi-arid and arid areas.

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Effect of irrigation suspension on the growth, water state and production of spinach (Spinacia olerácea L.) plants

Cited by 5 publications

References 13 publications

Growth, Physiology, and Water Status of Sissoo Spinach (Alternanthera sissoo) Under Different Irrigation Regimes

Growth, Physiology, and Water Status of Sissoo Spinach (Alternanthera sissoo) Under Different Irrigation Regimes

Effect of different sensor-based irrigation levels on growth, yield and economic viability of spinach (Spinacia oleracea L.) under reduced runoff farming

A Natural Bio-Stimulant Consisting of a Mixture of Fish Protein Hydrolysates and Kelp Extract Enhances the Physiological, Biochemical and Growth Responses of Spinach under Different Water Levels

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