Effect of waterlogging stress on the growth, development and symptomatology of cape gooseberry (Physalis peruviana L.) plants

Aldana, Fernando; García, Pedro Nel Murcia; Fischer, Gerhard

doi:10.18257/raccefyn.114

Cited by 43 publications

(48 citation statements)

References 29 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Likewise, when plants were subjected to three different periods of waterlogging, the stem diameter was also lower in comparison to plants without stressful conditions (Table 2). Aldana et al (2014) also reported similar observations when a significant reduction in plant height and stem diameter was seen after subjecting cape gooseberry (another Solanaceae species) seedlings to eight-day waterlogging periods. Also, Florez-Velazco et al (2015) also evaluated the effect of the interaction between waterlogging vs. nutritional N status and found that a series of short periods of oxygen deficiency in the soil caused a decrease in the shoot length of lulo plants (another Solanaceae species) cultivated with two levels of N (10 vs. 150 mg N L -1 H2O), highlighting that the most significant reduction was observed in plants that were always nitrogen-deficient.…”

Section: Resultssupporting

confidence: 59%

“…Malik et al (2002) also reported that even short periods (as short as 3 d) of waterlogging have important long-term effects on the growth of young wheat plants. On the other hand, Ezin et al (2010) and Aldana et al (2014) also observed that leaf growth and plant height varied according to the flooding duration in tomato and cape gooseberry plants, respectively.…”

Section: Waterlogging Treatmentmentioning

confidence: 96%

“…In general, studies about physiological responses of some Andean fruit trees species also belonging to Solanaceae family to waterlogging stress conditions have gained importance in recent years in Colombia due to their export potential as fresh fruit (Aldana et al, 2014;Florez-Velasco et al, 2015;Cardona et al, 2016). For that reason, it is important to enlarge the available knowledge on the interaction between nutritional status and waterlogging stress conditions (duration and/or frequency) for the economic and agricultural improvement of tamarillo plants in waterlogging affected areas.…”

Section: Waterlogging Treatmentmentioning

confidence: 99%

“…Flooding has some severe consequences on plant growth and its survival strategies (Phukan et al, 2016). In this sense, the following physiological disorders have been reported under waterlogging: a lower plant growth (Aldana et al, 2014), leaf chlorophyll content (Rao and Li, 2003), and total plant dry weight (Florez-Velasco et al, 2015), as well as changes in the plant water status (Striker et al, 2005). Also, waterlogging can alter biomass allocation in plants (Wu et al, 2015) Plant nutritional status can significantly influence the plant acclimation to stressful environmental conditions.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Effect of Nitrogen Nutritional Statuses and Waterlogging Conditions on Growth Parameters, Nitrogen Use Efficiency and Chlorophyll Fluorescence in Tamarillo Seedlings

Restrepo-Díaz

Betancourt-Osorio

Sanchez-Canro

2016

Not Bot Horti Agrobo

View full text Add to dashboard Cite

Climate change has altered rainfall patterns causing waterlogging periods that often negatively affect the performance of horticultural crops in the Andean region in Colombia. An experiment was carried out under greenhouse conditions using three-month-old tamarillo (Solanum betaceum Cav.) seedlings, which were grown under two levels of nitrogen (N H 2 O) (~20 cm vs. ~10 cm, respectively). Three different periods of waterlogging were performed between 35 and 37, 51 and 55, and 64 and 70 DAT by covering the holes in the plastic pots to ensure a constant water depth. Results showed that well-nourished plants without waterlogging treatments through the experiment's stress showed a greater shoot length (30 cm), total plant dry weight (7.95 g), F v /F m ratio (0.62) and leaf chlorophyll content (37.51 SPAD units) than poor-nourished plants without stress condition (15 cm, 5.57 g, 0.5 and 12.69 SPAD units, respectively) at the end of the experiment. Overall, waterlogging reduced leaf area and nitrogen use efficiency (about 75% and 50%, respectively) in both N levels. However, periods of waterlogging enhanced dry matter partitioning to stems (around 30-35%) in both N levels. This study showed that tamarillo plants are susceptible to landscaping situations where periods of waterlogging can be expected regardless of their N nutritional status.

show abstract

Section: Resultssupporting

confidence: 59%

Section: Waterlogging Treatmentmentioning

confidence: 96%

Section: Waterlogging Treatmentmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Effect of Nitrogen Nutritional Statuses and Waterlogging Conditions on Growth Parameters, Nitrogen Use Efficiency and Chlorophyll Fluorescence in Tamarillo Seedlings

Restrepo-Díaz

Betancourt-Osorio

Sanchez-Canro

2016

Not Bot Horti Agrobo

View full text Add to dashboard Cite

show abstract

“…Hypoxic condition in shallow water table triggered alteration of plant morphology such as decreasing leaf area, reducing leaf expansion rate, and reducing leaf water content (Bradford and Hsiao, 1982;Ashraf, 2012;Aldana et al, 2014). Continuous observation of LA is useful for analyzing plant growth and development during stress condition.…”

Section: Rler As An Indicator Of Stress Due To Shallow Water Tablementioning

confidence: 99%

Steady shallow water table did not decrease leaf expansion rate, specific leaf weight, and specific leaf water content in tomato plants

Meihana¹,

Lakitan²,

Susilawati³

et al. 2017

Aust J Crop Sci

View full text Add to dashboard Cite

It was presumed that shallow water table restricted leaf growth and some water-related parameters; therefore, they can be used as indicators of plant stress due to the water table condition. Objective of this research was to evaluate morphological stress indicators in tomato plants exposed to shallow water table. The research was conducted in two stages: (1) developing reliable LA estimation model from June to September 2016; as pre-requisite for (2) calculating and evaluating the morphological indicators for stress due to shallow water table treatments, conducted from February to May 2017. Treated plants were placed inside experimental pools. Each treatment was done by partially submerging growing substrate to the targeted water tables at 5 cm and 10 cm below surface of the substrate. Untreated control plants were kept outside the pools. Zero-intercept linear model was the selected model for leaf area estimation after evaluating 15 combinations of five regression models and three predictors. Results of this study indicated that steady water table at 5-cm and 10-cm depth did not restrain relative leaf expansion rate (RLER) and there was no significant difference in specific leaf fresh weight (SLFW) and specific leaf water content (SLWC) between treated and untreated plants, measured prior to, during, and after recovery from shallow water table treatments. In conclusion, if position of water table was steady, the shallow water table at 5-cm depth or deeper did not affect tomato growth.

show abstract

Mechanism of Waterlogging Stress Tolerance in Pigeonpea Plants: Biochemical and Anatomical Adaptation Under Waterlogging

Duhan

Sheokand

2020

Plant Ecophysiology and Adaptation Under Climate Change: Mechanisms and Perspectives II

View full text Add to dashboard Cite

Effect of waterlogging stress on the growth, development and symptomatology of cape gooseberry (Physalis peruviana L.) plants

Cited by 43 publications

References 29 publications

Effect of Nitrogen Nutritional Statuses and Waterlogging Conditions on Growth Parameters, Nitrogen Use Efficiency and Chlorophyll Fluorescence in Tamarillo Seedlings

Effect of Nitrogen Nutritional Statuses and Waterlogging Conditions on Growth Parameters, Nitrogen Use Efficiency and Chlorophyll Fluorescence in Tamarillo Seedlings

Steady shallow water table did not decrease leaf expansion rate, specific leaf weight, and specific leaf water content in tomato plants

Mechanism of Waterlogging Stress Tolerance in Pigeonpea Plants: Biochemical and Anatomical Adaptation Under Waterlogging

Contact Info

Product

Resources

About