Your search keyword '"cucumis sativus"' showing total 7,177 results

1. Genome wide identification and characterization of Bax inhibitor-1 gene family in cucumber (Cucumis sativus) under biotic and abiotic stress.

Author

Anwar, Samia, Siddique, Riffat, Ahmad, Shakeel, Haider, Muhammad Zeshan, Ali, Haider, Sami, Adnan, Lucas, Rosa Sanchez, Shafiq, Muhammad, Nisa, Bader Un, Javed, Bilal, Akram, Jannat, Tabassum, Javaria, and Javed, Muhammad Arshad

Abstract

In plants, the BAX inhibitor-1 (BI-1) gene plays a crucial part in controlling cell death under stress conditions. This mechanism of Programmed Cell Death (PCD) is genetically regulated and is crucial for the elimination of unwanted or damaged cells in a controlled manner, which is essential for normal development and tissue maintenance. A study on cucumber identified and characterized five BI-1 genes: CsBI1, CsBI2, CsBI3, CsBI4, and CsBI5. These genes share conserved domains, indicating common evolutionary history and function. Physicochemical analysis revealed their molecular weights and isoelectric points, while subcellular localization showed their presence in different cellular compartments. The phylogenetic analysis highlighted evolutionary relationships with related crops. Chromosomal distribution and synteny analysis suggested segmental or tandem duplications within the gene family. Protein-protein interaction analysis revealed extensive interactions with other cucumber proteins. Cis-regulatory elements in the promoter regions provided insights into potential functions and transcriptional regulation. miRNAs showed diverse regulatory mechanisms, including mRNA cleavage and translational inhibition. The CsBI3, CsBI4 and CsBI5 genes exhibit elevated expression levels during cold stress, suggesting their vital involvement in cucumber plant defense mechanisms. The application of chitosan oligosaccharides externally confirms their distinct expression patterns. The qRT-PCR confirms the upregulation of CsBI genes in ToLCNDV-infected plants, indicating their potential to mitigate biotic and abiotic stresses. The comprehensive genome-wide exploration provides opportunities for the development of cold-tolerant and virus-resistant cucumber variants by traditional breeding or gene. [ABSTRACT FROM AUTHOR]

Published

2024

2. The mutant STAY-GREEN (Cssgr) in cucumber interacts with the CSEP30 protein to elicit a defense response against Podosphaera xanthii.

Author

Li, Haisu, Khan, Irfan Ullah, Anarjan, Mahdi Badri, Hussain, Muhammad, and Lee, Sanghyeob

Abstract

Disease-resistant plants activate immune responses by specifically recognition Candidate Secreted Effector Proteins (CSEPs) through resistance (R) proteins. In research on cucumber powdery mildew resistance breeding, several R genes and CSEPs have been identified; however, the specific interactions between R proteins and CSEPs are still largely unexplored. In this study, we used a luciferase reporter assay to identify six CSEPs from Podosphaera xanthii that potentially induce cell death in cucumber. Subsequent yeast two-hybrid analysis revealed that only the mature form of CSEP30 (CSEP30∆SP) interacted with the cucumber mutant STAY-GREEN (Cssgr), a gene previously recognized for its broad-spectrum resistance in genetic studies. This interaction was confirmed using pull-down and co-immunoprecipitation assays. Additionally, to determine if the interaction leads to phenotypic changes, Cssgr and CSEP30∆SP were transiently expressed in tobacco leaves. The infiltration of Cssgr in tobacco resulted in reduced chlorosis compared to the wild-type CsSGR. Co-infiltration of Cssgr with CSEP30∆SP induced distinct dry necrotic lesions, contrasting the effects observed when Cssgr and CSEP30∆SP were infiltrated separately. Additionally, after P. xanthii infection in moderately powdery mildew-resistant Gy14 cucumber, similar necrotic lesions and specific expression of Cssgr, as along with defense response-related genes (CsPR1 and CsLecRK6.1), were observed. This study suggests that the interaction between Cssgr and CSEP30∆SP could trigger cell death and defense response, offering new insights into the molecular function of Cssgr in disease resistance in Gy14 cucumber. [ABSTRACT FROM AUTHOR]

Published

2024

3. Elevated concentrations of soil carbon dioxide with partial root-zone drying enhance drought tolerance and agro-physiological characteristics by regulating the expression of genes related to aquaporin and stress response in cucumber plants.

Author

Abdeldaym, Emad A., Hassan, Hassan A., El-Mogy, Mohamed M., Mohamed, Mohamed S., Abuarab, Mohamed E., and Omar, Hanaa S.

Abstract

Water scarcity and soil carbon dioxide elevation in arid regions are considered the most serious factors affecting crop growth and productivity. This study aimed to investigate the impacts of elevated CO2 levels (eCO2 at rates of 700 and 1000 ppm) on agro-physiological attributes to induce drought tolerance in cucumbers by activating the expression of genes related to aquaporin and stress response, which improved the yield of cucumber under two levels of irrigation water conditions [75% and 100% crop evapotranspiration (ETc)]. Therefore, two field experiments were conducted in a greenhouse with controlled internal climate conditions, at the Mohamed Naguib sector of the national company for protected agriculture, during the winter seasons of 2021–2022 and 2022–2023. The treatments included eCO2 in soil under normal and partial root zoon drying (PRD, 100% ETc Full irrigations, and 75% ETc). All the applied treatments were organized as a randomized complete block design (RCBD) and each treatment was replicated six times. Untreated plants were designed as control treatment (CO2 concentration was 400 ppm). The results of this study showed that elevating CO2 at 700 and 1000 ppm in soil significantly increased plant growth parameters, photosynthesis measurements, and phytohormones [indole acetic acid (IAA) and gibberellic acid (GA3)], under partial root-zone drying (75% ETc) and full irrigation conditions (100% ETc). Under PRD condition, eCO2 at 700 ppm significantly improved plant height (13.68%), number of shoots (19.88%), Leaf greenness index (SPAD value, 16.60%), root length (24.88%), fresh weight (64.77%) and dry weight (61.25%) of cucumber plant, when compared to untreated plants. The pervious treatment also increased photosynthesis rate, stomatal conductance, and intercellular CO2 concentration by 50.65%, 15.30% and 12.18%; respectively, compared to the control treatment. Similar findings were observed in nutrient concentration, carbohydrate content, Proline, total antioxidants in the leaf, and nutrients. In contrast, eCO2 at 700 ppm in the soil reduced the values of transpiration rate (6.33%) and Abscisic acid (ABA, 34.03%) content in cucumber leaves compared to untreated plants under both water levels. Furthermore, the results revealed that the gene transcript levels of the aquaporin-related genes (CsPIP1-2 and CsTIP4) significantly increased compared with a well-watered condition. The transcript levels of CsPIP improved the contribution rate of cell water transportation (intermediated by aquaporin’s genes) and root or leaf hydraulic conductivity. The quantitative real-time PCR expression results revealed the upregulation of CsAGO1 stress-response genes in plants exposed to 700 ppm CO2. In conclusion, elevating CO2 at 700 ppm in the soil might be a promising technique to enhance the growth and productivity of cucumber plants in addition to alleviating the adverse effects of drought stresses. [ABSTRACT FROM AUTHOR]

Published

2024

4. Minor C,O-Glycosylflavones from Cucumis sativus.

Author

Olennikov, D. N. and Kashchenko, N. I.

Subjects

*CUCUMBERS, *CHEMICAL amplification, *NUCLEAR magnetic resonance spectroscopy, *MASS spectrometry, *CUCURBITACEAE

Abstract

Four new flavonoids, isovitexin 4′-O-(2′′′-O-β-D-glucopyranosyl)-β-D-glucopyranoside (cucumoside H), isovitexin 4′-O-(6′′′-O-β-D-glucopyranosyl)-β-D-glucopyranoside (cucumoside I), isovitexin 4′-O-(6′′′-O-β-D-glucopyranosyl)-β-D-glucopyranoside-2′′-O-(6′′′′-O-p-coumaroyl)-β-D-glucopyranoside (cucumoside J), and isovitexin 4′-O-(6′′′-O-β-D-glucopyranosyl)-β-D-glucopyranoside-2′′-O-(6′′′′-O-feruloyl)-β-D-glucopyranoside (cucumoside K), were observed in leaves of Cucumis sativus L. (Cucurbitaceae, variety Gele Tros). Their structures were elucidated using chemical transformations, UV and NMR spectroscopy, and mass spectrometry. [ABSTRACT FROM AUTHOR]

Published

2024

5. Pythium and Globisporangium species associated with cucumber rhizosphere causing damping-off and their effects on cucumber seed decay in Oman.

Author

Al-Mahmooli, Issa Hashil, Finckh, Maria Renate, Velazhahan, Rethinasamy, AlJabri, AlMohanad Mohammed, Šišić, Adnan, Hussain, Shah, Abdel-Jalil, Raid, and Al-Sadi, Abdullah Mohammed

Abstract

Pythium sensu lato (s.l.) is a pathogenic oomycete. The present study was conducted to isolate and identify Pythium s.l. species associated with the rhizosphere and roots of greenhouse-growing cucumbers showing damping-off symptoms in 10 Omani governorates (provinces). A total of 166 isolates were recovered from 276 rhizosphere soil and root samples and were identified based on the ribosomal DNA (rDNA) internal transcribed spacer (ITS) region and the cytochrome c oxidase subunit I (COX I) gene region. Pythium aphanidermatum, P. myriotylum, Globisporangium spinosum, Globisporangium sp.1 (isolates Kb003/PySyCu-1 and Kb004/PySyCu-2), and Globisporangium sp.2 (isolate Ib002R) were identified. Among these species, P. aphanidermatum was the most abundant species, represented by 143 isolates (86.1%), followed by G. spinosum with 18 isolates (10.8%), Globisporangium sp.1 and P. myriotylum each with 2 isolates (2.4%), and Globisporangium sp.2 with 1 isolate (0.6%). Pathogenicity tests were also conducted for 38 isolates, including P. aphanidermatum (25), P. myriotylum (2), Globisporangium sp.2 (1), G. spinosum (8), and Globisporangium sp.1 (2). Among the tested isolates, only Globisporangium sp.2 isolate was avirulent, and none of the seeds were rotted at the end of the treatment. However, the other species induced the symptoms of seed decay with the incidence ranged from 86.7 to 100%. Phylogenetic analyses were conducted based on 222 ITS and 53 COX I sequences, and confirmed morphological identification. In addition, the genetic diversity of 93 P. aphanidermatum isolates was assessed via the amplified fragment length polymorphism (AFLP) method. The analysis produced 93 genotypes and 449 polymorphic loci. Pythium aphanidermatum populations were found to have moderate levels of genetic diversity (H = 0.2) and a moderate Shannon information index (I = 0.3793). Analysis of molecular variance (FST = 0.1, P = 0.0) revealed a moderate level of genetic differentiation among P. aphanidermatum isolates between Oman governorates. The sensitivity of 15 P. aphanidermatum isolates was evaluated against hymexazol at different concentrations (10, 100, and 1000 ppm). The results revealed that P. aphanidermatum could grow well at concentrations of up to 100 ppm hymexazol. However, hymexazol at 1000 ppm retarded the growth of P. aphanidermatum. This study showed that P. aphanidermatum is the most prevalent species in greenhouses in Oman and exhibited a moderate level of genetic diversity. Most of the isolates exhibited differences in tolerance to hymexazol but showed no resistance. [ABSTRACT FROM AUTHOR]

Published

2024

6. Elevated concentrations of soil carbon dioxide with partial root-zone drying enhance drought tolerance and agro-physiological characteristics by regulating the expression of genes related to aquaporin and stress response in cucumber plants

Author

Emad A. Abdeldaym, Hassan A. Hassan, Mohamed M. El-Mogy, Mohamed S. Mohamed, Mohamed E. Abuarab, and Hanaa S. Omar

Subjects

Water shortage, Plant performance, Elevated CO2 levels, Gene regulation, Physiological responses, Cucumis sativus, Botany, QK1-989

Abstract

Abstract Water scarcity and soil carbon dioxide elevation in arid regions are considered the most serious factors affecting crop growth and productivity. This study aimed to investigate the impacts of elevated CO2 levels (eCO2 at rates of 700 and 1000 ppm) on agro-physiological attributes to induce drought tolerance in cucumbers by activating the expression of genes related to aquaporin and stress response, which improved the yield of cucumber under two levels of irrigation water conditions [75% and 100% crop evapotranspiration (ETc)]. Therefore, two field experiments were conducted in a greenhouse with controlled internal climate conditions, at the Mohamed Naguib sector of the national company for protected agriculture, during the winter seasons of 2021–2022 and 2022–2023. The treatments included eCO2 in soil under normal and partial root zoon drying (PRD, 100% ETc Full irrigations, and 75% ETc). All the applied treatments were organized as a randomized complete block design (RCBD) and each treatment was replicated six times. Untreated plants were designed as control treatment (CO2 concentration was 400 ppm). The results of this study showed that elevating CO2 at 700 and 1000 ppm in soil significantly increased plant growth parameters, photosynthesis measurements, and phytohormones [indole acetic acid (IAA) and gibberellic acid (GA3)], under partial root-zone drying (75% ETc) and full irrigation conditions (100% ETc). Under PRD condition, eCO2 at 700 ppm significantly improved plant height (13.68%), number of shoots (19.88%), Leaf greenness index (SPAD value, 16.60%), root length (24.88%), fresh weight (64.77%) and dry weight (61.25%) of cucumber plant, when compared to untreated plants. The pervious treatment also increased photosynthesis rate, stomatal conductance, and intercellular CO2 concentration by 50.65%, 15.30% and 12.18%; respectively, compared to the control treatment. Similar findings were observed in nutrient concentration, carbohydrate content, Proline, total antioxidants in the leaf, and nutrients. In contrast, eCO2 at 700 ppm in the soil reduced the values of transpiration rate (6.33%) and Abscisic acid (ABA, 34.03%) content in cucumber leaves compared to untreated plants under both water levels. Furthermore, the results revealed that the gene transcript levels of the aquaporin-related genes (CsPIP1-2 and CsTIP4) significantly increased compared with a well-watered condition. The transcript levels of CsPIP improved the contribution rate of cell water transportation (intermediated by aquaporin’s genes) and root or leaf hydraulic conductivity. The quantitative real-time PCR expression results revealed the upregulation of CsAGO1 stress-response genes in plants exposed to 700 ppm CO2. In conclusion, elevating CO2 at 700 ppm in the soil might be a promising technique to enhance the growth and productivity of cucumber plants in addition to alleviating the adverse effects of drought stresses.

Published

2024

7. Effect Cookies Made from (Musa acuminata Cavendish and Cucumis sativus) and Self Talk against Reducing Urine Protein Levels and Blood Pressure in Women of Childbearing Age Pre Hypertension

Author

Aswita Aswita, Kartini Kartini, and Titi Purnama Delano

Subjects

cookies, pre hypertension, urine protein, blood pressure, musa acuminata cavendish, cucumis sativus, Medicine

Abstract

OBJECTIVE: This study aimed to determine the influence of cookies made from (Musa acuminata cavendish and Cucumis sativus) and self-talk to reduce urine protein levels and blood pressure in women of childbearing age before hypertension. METHODOLOGY: The study was quasi-experimental, using pretests and post-tests from September to November 2023. Random sampling was done using the Slovin formula. Samples were divided into four groups; each group consisted of 30 people. The total sample consisted of 120 people. Data collection instruments included questionnaires, booklets, and cookies. Data were analyzed using SPSS Software with an independent t-test and ANOVA. RESULTS: There were differences in urine protein levels between the initial and final measurements. In group one, five respondents had positive urine protein, while 24 had negative urine protein. In group two, four patients had positive urine protein levels, and all of them were negative. In group three, 2 had positive proteins, and 28 had negative proteins. In group four, 2 had positive proteins, and 28 had negative proteins. A p-value of 0.000 indicates the influence of Musa acuminata Cavendish and Cucumis sativus cookies and the self-talk module on protein levels. CONCLUSION: Musa acuminata Cavendish and Cucumis sativus cookies and the Self Talk booklet for prehypertensive mothers in Kendari City for 12 weeks can effectively reduce blood pressure and urine protein levels.

Published

2024

8. Antimicrobial and Cytotoxic Activity of Citrus macroptera and Cucumis sativus Herbal Formulation: An In Vitro Study

Author

Turaga Amani and Mouttoukichenin Surenthar

Subjects

alternative medicine, antibacterial, citrus macroptera, cucumis sativus, cytotoxicity, Dentistry, RK1-715, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Background: Natural cures are becoming more and more popular since they might lessen the possibility of negative side effects and provide a substitute for pharmaceutical drugs. This study used in vitro experiments to evaluate the cytotoxic and antibacterial properties of a combination of C. sativus, C. macroptera, and glycerol extract. Materials and Method: Fruits of C. macroptera (citrus) and C. sativus (cucumber) were washed and dried. Following the preparation of their extracts, a 10 ml extract solution was created by combining them with 8 ml of glycerol. The mixture was filtered, stored at 4°C, and tested using the Agar well diffusion method against the bacterial suspension and the brine shrimp lethality assay against the nauplii. Results: The extract showed similar antibacterial and cytotoxic effects to standard values at 100 μg/ml. Higher concentrations increased the zone of inhibition. The brine shrimp lethality test indicated good cytotoxicity. Conclusion: The formulation of glycerol extract, cucumber, and citrus could be a useful substitute for the synthetic antibacterial medications that are now on the market because of their good cytotoxic efficacy and minimal side effects. When it comes to developing new drugs to treat oral cavity lesions, these extracts may offer a viable approach.

Published

2024

9. Low temperature and high humidity affect dynamics of chlorophyll biosynthesis and secondary metabolites in Cucumber

Author

Bakht Amin, Muhammad Jawaad Atif, WMWW Kandegama, Jamal Nasar, Pravej Alam, Zhongming Fang, and Zhihui Cheng

Subjects

Cucumis sativus, Low temperature, High humidity, Chlorophyll biosynthesis, Gene expression, Secondary metabolites, Botany, QK1-989

Abstract

Abstract Background During the cold season, low temperature (LT) and high relative humidity (HRH) are significant environmental factors in greenhouses and plastic tunnels, often hindering plant growth and development. The chlorophyll (Chl) biosynthesis inhibitory mechanisms under LT and HRH stress are still widely unclear. To understand how cucumbers seedlings respond to LT and HRH stress, we investigated the impact of these stressors on Chl biosynthesis. Results Our results revealed that individual LT, HRH and combined LT + HRH stress conditions affected chlorophyll a, b, total chlorophyll and carotenoid content, reducing the levels of these pigments. The levels of Chlorophyll precursors were also markedly reduced under LT and HRH stresses, with the greatest reduction observed in cucumber seedlings exposed to LT + HRH conditions (9/5℃, 95%HRH). The activities of glutamate-1-semialdehyde transaminase (GSA-AT), ALA dehydratase (ALAD), Mg-chelatase, and protochlorophyllide oxidoreductase (POR) were increased under individual LT, HRH, conditions but decreased by combination of LT + HRH stress condition. In addition, Chl biosynthesis related genes (except PBG) were upregulated by the HRH stress but were significantly downregulated under the LT + HRH stress condition in cucumber seedlings. Furthermore, the content of phenols, flavonoids and phenolic acids (cinnamic acid and caffeic acid) were significantly surged under LT + HRH treatment over the control. Histochemical observation showed higher O2 − and H2O2 content in cucumber leaves during the LT and HRH stress. Conclusion The results indicate that LT + HRH stress significantly impairs chlorophyll biosynthesis in cucumber seedlings by drastically reducing pigment accumulation, altering enzyme activity and gene expression. Additionally, LT + HRH stress induces oxidative damage, which further exacerbates the decline in chlorophyll content and affects overall cucumber metabolism.

Published

2024

10. Diversity of Coleoptera on Cucumber in the Tonkpi Region of Man, Côte d'Ivoire

Author

Diabate, Dohouonan, N’guessan, Ehikpa Naomie Melinand, Coulibaly, Tenon, and Tano, Yao

Published

2024

11. Comparative efficacy of some promising insecticides against cucumber whitefly (Bemisia tabaci Genn.) under protected cultivation

Author

Ravindranath, Nihal, Gaikwad, Dinkar Jagannath, Hosa, Goutam B., Patnaik, Smrutisikha, and Panda, Ankita

Published

2024

12. Validating the Vegetable Variety Navigator Decision-support Tool Using Recent On-farm Variety Trial Data.

Author

Wehrbein, Caleb D. and Wortman, Sam E.

Subjects

SPECIALTY crops, CULTIVARS, SWEET peppers, CAPSICUM annuum, FARMERS, BROCCOLI, CUCUMBERS

Abstract

Local variety trial data are necessary for informing growers how a specific variety might performon their farmbut there is a growing deficiency in these data, particularly for specialty crops. To address this issue, an online decision-support tool named the Vegetable Variety Navigator (VVN) was developed in 2020 to compile, analyze, and visually communicate publicly available broccoli (Brassica oleracea var. italica), cucumber (Cucumis sativus), and sweet pepper (Capsicum annuum)variety trial data. To validate the accuracy and predictive potential of the VVN, we conducted 16 on-farmvariety trials for broccoli, cucumber, and sweet pepper between 2020 and 2022. Yield of each variety in a trial was compared with the mean of all other varieties in the same trial to calculate a mean relative yield (MRY). The difference between observed relative yield in the field and predicted relative yield from the VVN (DMRY) was used to assess the accuracy of three different VVN prediction strategies. Strategies included using data fromthe following: 1) the single geographically nearest trial, 2) themean of the three geographically nearest trials, or 3) themean of all available trial data regardless of location. Compared with random predictions of MRY for each variety (from within a normal distribution ofMRY values in the VVN database), the VVNpredictions reduced DMRY and improved the accuracy of relative yield predictions across varieties by up to 21% in broccoli, 51% in cucumber (depending on strategy), and 51% in sweet pepper. Results confirm the value of the VVN as a decision-support tool for growers facing an ever-increasing number of crop variety options with less variety trial data. Future research and development are needed to improve the accuracy of the VVN by accounting for possible effects of crop types, management, and location on relative yield and quality. [ABSTRACT FROM AUTHOR]

Published

2024

13. Genome wide identification of phenylalanine ammonia-lyase (PAL) gene family in Cucumis sativus (cucumber) against abiotic stress

Author

Muskan Amjad, Yuexia Wang, Shiming Han, Muhammad Zeshan Haider, Adnan Sami, Alia Batool, Muhammad Shafiq, Qurban Ali, Jihong Dong, Irfan Ali Sabir, and Muhammad Aamir Manzoor

Subjects

Cucumis sativus, Cucumber, Phenylalanine ammonia-lyase (PAL), Transcriptomic analysis, Gene regulation, Abiotic stress, Genetics, QH426-470

Abstract

Abstract Phenylalanine ammonia lyase (PAL) is a widely studied enzyme in plant biology due to its role in connecting primary metabolism to secondary phenylpropanoid metabolism, significantly influencing plant growth, development, and stress response. Although PAL genes have been extensively studied in various plant species but their exploration in cucumber has been limited. This study successfully identified 11 CsPAL genes in Cucumis sativus (cucumber). These CsPAL genes were categorized based on their conserved sequences revealing patterns through MEME analysis and multiple sequence alignment. Interestingly, cis-elements related to stress were found in the promoter regions of CsPAL genes, indicating their involvement in responding to abiotic stress. Furthermore, these gene’s promoters contained components associated with light, development and hormone responsiveness. This suggests that they may have roles in hormone developmental processes. MicroRNAs were identified as a key regulators for the CsPAL genes, playing a crucial role in modulating their expression. This discovery underscores the complex regulatory network involved in the plant’s response to various stress conditions. The influence of these microRNAs further highlights the complicated mechanisms that plants use to manage stress. Gene expression patterns were analyzed using RNA-seq data. The significant upregulation of CsPAL9 during HT3h (heat stress for 3 h) and the heightened upregulation of both CsPAL9 and CsPAL7 under HT6h (heat stress for 6 h) in the transcriptome study suggest a potential role for these genes in cucumber’s tolerance to heat stress. This comprehensive investigation aims to enhance our understanding of the PAL gene family’s versatility, offering valuable insights for advancements in cucumber genetics.

Published

2024

14. Genome wide identification of phenylalanine ammonia-lyase (PAL) gene family in Cucumis sativus (cucumber) against abiotic stress.

Author

Amjad, Muskan, Wang, Yuexia, Han, Shiming, Haider, Muhammad Zeshan, Sami, Adnan, Batool, Alia, Shafiq, Muhammad, Ali, Qurban, Dong, Jihong, Sabir, Irfan Ali, and Manzoor, Muhammad Aamir

Subjects

*GENE expression, *PHENYLALANINE ammonia lyase, *CONSERVED sequences (Genetics), *GENE families, *CUCUMBERS

Abstract

Phenylalanine ammonia lyase (PAL) is a widely studied enzyme in plant biology due to its role in connecting primary metabolism to secondary phenylpropanoid metabolism, significantly influencing plant growth, development, and stress response. Although PAL genes have been extensively studied in various plant species but their exploration in cucumber has been limited. This study successfully identified 11 CsPAL genes in Cucumis sativus (cucumber). These CsPAL genes were categorized based on their conserved sequences revealing patterns through MEME analysis and multiple sequence alignment. Interestingly, cis-elements related to stress were found in the promoter regions of CsPAL genes, indicating their involvement in responding to abiotic stress. Furthermore, these gene's promoters contained components associated with light, development and hormone responsiveness. This suggests that they may have roles in hormone developmental processes. MicroRNAs were identified as a key regulators for the CsPAL genes, playing a crucial role in modulating their expression. This discovery underscores the complex regulatory network involved in the plant's response to various stress conditions. The influence of these microRNAs further highlights the complicated mechanisms that plants use to manage stress. Gene expression patterns were analyzed using RNA-seq data. The significant upregulation of CsPAL9 during HT3h (heat stress for 3 h) and the heightened upregulation of both CsPAL9 and CsPAL7 under HT6h (heat stress for 6 h) in the transcriptome study suggest a potential role for these genes in cucumber's tolerance to heat stress. This comprehensive investigation aims to enhance our understanding of the PAL gene family's versatility, offering valuable insights for advancements in cucumber genetics. [ABSTRACT FROM AUTHOR]

Published

2024

15. Growth, Yield, and Physiological Responses of Cucumber (Kish F1 Hybrid) Grafted onto African Horned Cucumber (Cucumis metuliferus L.) Rootstock under Deficit Irrigation Stress.

Author

Barzegar, T., Ghoreyshi, S. M., Nekounam, F., Nikbakht, J., and Ghashghaie, J.

Abstract

Water scarcity is the major limiting factor for growth and yield in arid and semi-arid regions. Therefore, an experiment was conducted to investigate the effect of deficit irrigation on the yield, fruit quality and physiological responses of cucumber plants Cucumis sativus (L.) Kish F1 (i.e., a scion) either grafted or not grafted on the African horned cucumber rootstock under open field conditions. Irrigation treatments were 100, 80, and 60% of crop evapotranspiration (ETc). Results showed that plant growth and yield significantly decreased in response to deficit irrigation in both grafted and non-grafted plants. The fruit number and yield of grafted onto African horned cucumber rootstock were higher than those of non-grafted plants under deficit irrigation (60% ETc). Fruit firmness and vitamin C content significantly decreased with increasing water-deficit stress, while total soluble solid, phenolic compounds and antioxidant activity increased. Fruits of grafted plants had a significantly higher quality compared with non-grafted fruits under all irrigation regimes. Likewise, grafted plants showed significantly higher proline and leaf relative water content and lower electrolyte leakage compared with non-grafted plants under all irrigation regimes. These findings suggest that grafting cucumber onto drought-tolerant African horned cucumber rootstock could improve water-stress tolerance in cucumber. [ABSTRACT FROM AUTHOR]

Published

2024

16. Piriformospora indica modifies cucumber’s tolerance to Meloidogyne incognita by regulating various agro-physiological traits, antioxidant enzymes, and abscisic acid pathway genes.

Author

EL-MOGY, Mohamed M., ATIA, Mohamed A. M., REYAD, Nour El-Houda A., ABDELSATTAR, Mohamed, IBRAHIM, Dina S. S., MAHMOUD, Abdel Wahab M., ABDELAZIZ, Suzy M., ABDELDAYM, Emad A., and ABDELAZIZ, Mohamed E.

Subjects

*MANGO, *ABSCISIC acid, *SOUTHERN root-knot nematode, *PLANT inoculation, *PLANT genes, *PLANT nutrients, *CUCUMBERS

Abstract

Root knot nematode (RKN), Meloidogyne incognita, is considered a major soil-borne pathogen that can cause severe yield losses for vegetables and diverse crops. Usually, reducing of M. incognita damage is mainly relies on the application of nematicides and good agricultural practices. However, the use of synthetic nematicides is restricted due to concerns about their impact on the environment and human health. As a result, the use of alternative strategies is becoming necessary to combat RKN resistance. This study evaluates the antagonistic impact of the root mutualistic fungus Piriformospora indica on M. incognita. It also assesses its influence on the nutritional status, photo-synthesis, antioxidant enzyme activity, endogenous abscisic acid (ABA) levels, and selected ABA related-responsive genes in cucumber plants. Roots of cucumber seedlings were inoculated with P. indica and the second-stage juveniles (1000 J2 per plant). The results demonstrated that P. indica significantly reduced M. incognita invasion in roots, resulting in a 24% reduction in root galling and 42.6% decline in final population. Inoculating plants with both P. indica and RKN increased performance of root fresh and dry weight, as well as improved photochemical efficiency of PSII (Fv/Fm), photosystem II efficiency (PSII), catalase (CAT), peroxidase (POD), and superoxide dis-mutase (SOD). Furthermore, P. indica colonization, either alone or in combination with M. incognita, significantly improved number of fruits per plant, average fruit weight, the plant's marketable yield, and leaf nutrient content (N, P, K and Mg), Moreover, there was an increase in IAA content combined with a decrease in ABA content in roots of dual inoculation plants, if compared to M. incognita infested plants. The highest ABA content was recorded in the root of RKN-cucumber plants. The decline in ABA content due to P. indica treatment was consistent with the modulation of ABA pathway genes, specifically PP2C, PYL1, RK2,1, and RK2,2. The mixed of P. indica and M. incognita led to a decrease in the expression of PP2C, PLY1, RK2,1, and RK2,2 in comparison to the control group. These results indicate that P. indica application could help reduce the negative effects of RKN on important crops. [ABSTRACT FROM AUTHOR]

Published

2024

17. Development and validation of a standard area diagram set for assessment of anthracnose severity on cucumber leaves.

Author

Conforto, Cinthia, Martins, Ricardo Brainer, Nicoli, Alessandro, Capucho, Alexandre Sandri, Duarte, Henrique da Silva Silveira, and Michereff, Sami Jorge

Subjects

*CUCUMBERS, *PLANT diseases, *AGRICULTURE, *COLLETOTRICHUM, *SPECIES, *ANTHRACNOSE

Abstract

Anthracnose, caused by species in the Colletotrichum orbiculare complex, is a major foliar disease in open‐field cucumber farming worldwide. This study aimed to develop and validate a standard area diagram (SAD) set to estimate the severity of anthracnose on cucumber leaves. For this purpose, a SAD set with nine levels of severity (1; 3; 5; 10; 20; 30; 40; 50 and 60%) is proposed. The SAD set was validated by 16 raters with no experience in evaluating plant diseases. Both accuracy and precision improved when the proposed SAD set was employed. The statistical parameters were bias coefficient factor‐Cb (no SAD set = 0.891, with SAD set = 0.982); correlation coefficient‐r (no SAD set = 0.851, with SAD set = 0.941); and Lin's concordance correlation coefficient‐ρc (no SAD set = 0.755, with SAD set = 0.924). In addition, estimates were more reliable: intra‐class correlation coefficient‐ρ (no SAD set = 0.646, with SAD set = 0.887). The SAD set proposed here is a useful tool for improving visual assessments of anthracnose severity on cucumber leaves. [ABSTRACT FROM AUTHOR]

Published

2024

18. Status, Gaps and Perspectives of Powdery Mildew Resistance Research and Breeding in Cucurbits.

Author

Lebeda, Aleš, Křístková, Eva, Mieslerová, Barbora, P. S. Dhillon, Narinder, and D. McCreight, James

Subjects

*POWDERY mildew diseases, *CUCURBITACEAE, *ORNAMENTAL plants, *BIOLOGICAL classification, *CUCUMBERS, *LAGENARIA siceraria

Abstract

Cucurbitaceae, the gourd family of flowering plants, is a very large and diverse family, the order Cucurbitales, contains 95 genera and 950–980 species of food and ornamental plants, and wild and weedy species mostly with high genetic diversity. This review is focused on the most important cucurbit crops (Cucumis sativus, Cucumis melo, Cucurbita spp., Citrullus lanatus, Momordica charantia, Lagenaria siceraria, and Luffa acutangula) and some their wild relatives as hosts of cucurbit powdery mildews (CPM). Powdery mildews (PM) (Ascomycota, Erysiphales) are one of the most frequently encountered and easily visible groups of plant pathogenic fungi with > 900 species. They are obligate biotrophs, they colonize above-ground plant tissues, mostly leaves, though they may also colonize stems, petioles, flowers and fruits, and they are usually debilitators, not killers. These parasitic fungi have been problematic on cucurbits for a long time world-wide, causing serious economic losses in yield and quality. All economically important cucurbit crops host CPM. Seven PM species with different taxonomic positions, host ranges, geographic distributions and ecological requirements are known on cucurbits. CPM species taxonomy and denomination rapidly changed during last few decades through detailed analyses and clarifications. At least three PM species frequently parasitize cucurbits: the endoparasite Leveillula taurica (Lt) with marginal economic importance; and two ectoparasitic species, Golovinomyces orontii (Go), and Podosphaera xanthii (Px), which are economically important world-wide. The two pathogens differ in ecological requirements and distribution, though they may occur together in mixed infections. They are highly variable at the population level for virulence, race identities, and fast adaptation of pathogens. Cucurbit-CPM species interactions are diverse and complicated, and differ between hosts and their respective pathogen genera and species. Here we present a critical overview of obstacles, gaps and recent progress in these matters for six cucurbit genera with respect to resistance resources, genetics of resistance, genetic mapping and development of molecular markers, physiology and mechanisms of resistance, developments in mlo-mediated resistance, patents, and CPM resistance breeding. [ABSTRACT FROM AUTHOR]

Published

2024

19. Phytochemical and Pharmacological Activities of Cucumis sativus: An Updated Review.

Author

Idemudia, Osagie U. and Enogieru, Adaze B.

Subjects

PHYTOCHEMICALS, PHARMACOLOGY, HERBAL medicine, CUCUMBERS, CUCURBITACEAE

Abstract

Due to the rising demand for cost-effective herbal medicines as alternatives to expensive synthetic drugs, investigations into the pharmacological properties of medicinal plants have witnessed a remarkable surge. Cucumis sativus, a member of the Cucurbitaceae family, is a popular vegetable crop that possesses a wealth of phytoconstituents linked to various therapeutic applications. Accordingly, this review explores the recent phytochemical and pharmacological information on Cucumis sativus aimed at providing an updated template for its possible development as a therapeutic agent for various disorders. In this study, several databases were searched to ascertain the active compounds in Cucumis sativus and to identify the reported pharmacological activities in In-vitro and In-vivo studies. Findings from this review highlight the diverse pharmacological actions of Cucumis sativus, including anti-microbial, anti-cancer, cytotoxic, wound healing, anti-ulcer, anti-inflammatory, anti-diabetic, anti-oxidant, analgesic, and hepatoprotective effects. Also, this study noted a paucity of literature information on the neuroprotective and reproductive activities of Cucumis sativus in experimental models. Altogether, this review provides updated information and highlights the potential of Cucumis sativus for future pharmaceutical investigations and the possible development of drugs that can be useful in the management of various disorders. [ABSTRACT FROM AUTHOR]

Published

2024

20. Molecular Detection and Identification of Begomovirus Infecting Cucumber (Cucumis sativus) in Terengganu, Malaysia.

Author

Goundar, Sakthivel Poraya, Ramani, Sandhya, Radzi, Nuramirashafikah Mohd, Abu Bakar, Mohd Fahmi, and Nur Fatihah, Hasan Nudin

Abstract

The genus Begomovirus from the family Geminiviridae is responsible for causing significant economic losses to many important horticultural crops, including cucumber (Cucumis sativus L.). Begomovirus infection during the early stages of plant growth can lead to complete yield loss. Hence, the identification of begomovirus species is important to design a precise resistant breeding strategy. This study aims to detect the presence of begomovirus in typical symptomatic cucumber leaves, identify the species of begomovirus present, and investigate the evolutionary relationships with other reported begomoviruses using phylogenetic analysis. Leaf samples from symptomatic cucumber plants were collected from the Green World Genetics (GWG) research station and a farm in Lembah Bidong, Rhu Tapai, Setiu, Terengganu. To detect the presence of begomovirus, PCR was carried out using universal primers targeting DNA-A, DNA-B, and betasatellite regions. DNA-A and betasatellite fragments were amplified, but not DNA-B. The amplified partial sequences of DNA-A were then analysed and compared with other begomovirus sequences in the GenBank database managed by the National Centre for Biotechnology Information (NCBI). The newly isolated DNA-A sequence from cucumber was 100% identical to the tomato leaf curl New Delhi virus (ToLCNDV). The phylogenetic tree was divided into two groups: group A, consisting of the newly isolated DNA-A sequence from cucumber, ToLCNDV, followed by squash leaf curl China virus (SLCCNV) and a monopartite begomovirus Ageratum yellow vein virus (AYVV); and group B, consisting of tomato yellow leaf curl Kanchanaburi virus (TYLCKaV), pepper yellow leaf curl Indonesia virus (PepYLCIV), and pepper yellow leaf curl Aceh virus (PepYLCAV). For the first time in cucumber, betasatellite is reported in association with ToLCNDV, a bipartite old-world begomovirus. This study provides a basis for the selection and breeding of begomovirusresistant cucumber varieties in the future. [ABSTRACT FROM AUTHOR]

Published

2024

21. Respuesta agroproductiva del pepino (Cucumis sativus L.) a la aplicación de vermicompost y microorganismos eficientes

Author

Alexander Calero Hurtado, Yanery Pérez Díaz, Dianelys Pérez Díaz, and Daimy Del Carmen Valdivia Fernández

Subjects

Agricultura orgánica, Aplicación foliar, Bioestimulantes, Biofertilizantes, Cucumis sativus, Hortalizas, Agriculture (General), S1-972, Biotechnology, TP248.13-248.65

Abstract

El vermicompost (VC) es una alternativa eficiente para mejorar el crecimiento y productividad de las plantas y la aplicación del bioestimulante Microorganismos eficientes (ME-50®) es una estrategia económica que promueve el crecimiento de los cultivos, por lo tanto, el uso combinado de ambos bioproductos podría ser una opción atractiva y económica para producir alimentos saludables. El objetivo de este estudio fue evaluar las respuestas agroproductivas del pepino a la fertilización individual, combinada con los bioproductos de Microorganismos eficientes. Un experimento bajo condiciones de organoponía fue dispuesto en un diseño en bloques al azar, esquema factorial (4×2), con cuatro réplicas. Cuatro concentraciones del biofertilizante ME-50® [0 (sin aplicación), 50, 100 y 200 mL/L] se combinaron con la ausencia y presencia (5 t/ha) de vermicompost, para la determinación del crecimiento se empleó la altura de la planta, área foliar y masa seca de la parte aérea y para la productividad el número, longitud, masa de los frutos y rendimiento del pepino. Los resultados mostraron que la aplicación individual de vermicompost y/o ME-50® aumentan el crecimiento de la planta y la productividad del pepino. Además, la combinación del vermicompost y ME-50® incrementaron los parámetros de crecimiento y rendimiento en comparación a la aplicación individual de ellos. Adicionalmente, se recomienda la inoculación de las semillas con el bioestimulante ME-50® a 200 en la ausencia de vermicompost y la inoculación con 100 en presencia de vermicompost (5 t/ha), respectivamente. Los resultados de este trabajo indican que con la aplicación combinada de los bioproductos vermicompost y ME-50®, representan una estrategia económica, eficiente y viable para el manejo sostenible y agroecológico y así mismo, se consiguió aumentar el rendimiento del pepino en condiciones de organoponía.

Published

2024

22. Efficacy of insecticides on Diaphania hyalinata (Lepidoptera: Crambidae) on cucumber crop in Tonkpi region (Man, Côte D'ivoire)

Author

Diabaté, Dohouonan, Koné, Pitou Woklin Euloge, Kadio, Ekien Alloua Ahébé Bertille, Akpesse, Akpa Alexandre Moïse, and Tano, Yao

Published

2024

23. Varietal Tolerance of Cucurbitaceous Crops with S-metolachlor Applied Postemergence.

Author

Vollmer, Kurt M., Sosnoskie, Lynn M., VanGessel, Mark J., and Besançon, Thierry E.

Subjects

WEEDS, CUCUMBERS, CULTIVARS, CROPS, WEED control, HERBICIDES, PUMPKINS, SQUASHES, GREENHOUSES

Abstract

Cucurbit crops comprise ~25% of the vegetable acreage in the mid-Atlantic and Northeastern United States. However, options for postemergence weed control in these crops are limited. Overlapping herbicides is a technique that involves sequential applications of soil-applied residual herbicides to lengthen herbicidal activity before the first herbicide dissipates. Residual herbicides such as S-metolachlor will not control emerged weeds, but weed control efficacy may be extended if these herbicides are applied after crop emergence, but before weed emergence occurs. Currently S-metolachlor is not labeled for broadcast applications over cucurbit crops. Greenhouse studies were conducted to evaluate pumpkin, cucumber, and summer squash variety response to varying S-metolachlor rates. S-metolachlor was applied at 1.42 and 2.85 lb/acre at the two-leaf stage of pumpkin and 0.71, 1.42, 2.85, and 5.7 lb/acre at the two-leaf stage of cucumber and summer squash. Cucumber showed a greater response to S-metolachlor with up to 67% injury observed at 5.70 lb/acre. S-metolachlor applications to pumpkin and summer squash resulted in less than 6% injury, regardless of application rate or crop variety. S-metolachlor applied at 2.85 lb/acre reduced pumpkin and cucumber dry weight 6% and 19%, respectively, but did not reduce squash dry weight. S-metolachlor reduced cucumber dry weight 78% for all varieties. Pumpkin varieties 'Munchkin' and 'Baby Bear' exhibited a 23% difference in dry weight, but no other differences were observed among other varieties because of S-metolachlor applications. Summer squash varieties 'Respect' and 'Golden Glory' exhibited a 31% difference in dry weight, but no other differences were observed among other varieties. Results show that pumpkin and summer squash demonstrated good crop safety when S-metolachlor was applied as a broadcast treatment after crop emergence. However, caution should be urged when applying this herbicide to cucumber. [ABSTRACT FROM AUTHOR]

Published

2024

24. A Comparison Between Modified-umbrella and High-wire Trellising Systems in a Low-profile Greenhouse for Hydroponic Beit Alpha Cucumber.

Author

Kile, Lily, Sánchez, Elsa, and Berghage, Robert

Subjects

GREENHOUSES, PLANT canopies, PLANT spacing, PLANT succession, FARMERS, CUCUMBERS

Abstract

The production of Beit Alpha cucumber (Cucumis sativus) in hydroponic systems has increased in popularity since the early 2000s, along with the use of highwire trellising systems. Some farmers claim the high-wire trellising systems, also known as drop-and-lean trellising, result in a more consistent weekly yield than umbrella or modified-umbrella systems. This study compared the high-wire and modified-umbrella trellising systems both using a 7 ft top wire and 4 plants/m2 plant density. The fruit weight and number of fruit per plant were significantly greater using the modified-umbrella trellising system, with the number of fruit being about twice as high as the high-wire trellising system. Consistency of yields was also measured for both systems and found to peak at ~5 to 7 weeks after the start of harvest using both trellising systems. However, peak yields using the modifiedumbrella trellising system followed a quadratic curve, implying that the high-wire trellising system results in more consistent yields. Differences in yield and harvest consistency were likely related to light penetration of the plant canopy. Growers using low-profile greenhouses can expect lower yields and more consistent harvests using the high-wire trellising system. Yields may be improved using a higher plant density. Alternatively, succession planting on a 5- to 7-week interval can improve harvest consistency using a modified-umbrella trellising system. [ABSTRACT FROM AUTHOR]

Published

2024

25. Evaluation of cucumber genotypes under plastic house and open field conditions in Lalitpur, Nepal

Author

Sujan Subedi, Nirajan Bhandari, Manoj Basnet, Navin Gopal Pradhan, and Ishwori Prasad Gautam

Subjects

Cucumis sativus, genotypes, growing conditions, yield, Manuel Tejada, Universidad de Sevilla, Spain, Agriculture & Environmental Sciences, Agriculture, Horticulture, Food processing and manufacture, TP368-456

Abstract

AbstractThe low production of cucumber (Cucumis sativus L.) in Nepal is associated with the lack of high-yielding gynoecious hybrids, the long gestation period and low yields of open-pollinated varieties and cold stress in open field conditions during the off-season. An experiment was conducted at the National Horticulture Research Centre, Nepal Agricultural Research Council, Khumaltar, Lalitpur, Nepal, from February to July 2019 to evaluate the performance of cucumber genotypes under open field and plastic house conditions. The experiment was laid out in a two-factor randomized complete block design (RCBD) with seven genotypes (Bhaktapur Local, HRDCUC-004 × HRDCUC-001, HRDCUC-004 × HRDCUC-003, HRDCUC-006 × HRDCUC-001, HRDCUC-006 × HRDCUC-003, HRDCUC-009 × HRDCUC-001, and HRDCUC-009 × HRDCUC-003) and two growing conditions (open field and plastic house). Genotypes and growing conditions affected yield and yield attributing characters. Genotype HRDCUC-004 × HRDCUC-001 grown under the plastic house was superior in terms of the number of fruits plant−1 (28.33), yield plant−1 (12.43 kg), and adjusted yield hectare−1 (117 t ha−1). The highest benefit-cost ratio (2.99:1) was also observed for the genotype HRDCUC-004 × HRDCUC-001 grown under plastic house conditions. Overall acceptability of consumers was higher in genotype Bhaktapur Local (7.6) followed by HRDCUC-004 × HRDCUC-001 (7.2). Cucumber genotype HRDCUC-004 × HRDCUC-001 was promising for yield and yield attributing characters under both growing conditions.PUBLIC INTEREST STATEMENTCucumber, a globally popular vegetable crop, holds significant economic importance and is widely used in kitchens as a salad. Despite the availability of many exotic hybrid varieties, Nepal struggles with low cucumber production. Therefore, it is crucial to evaluate the performance of gynoecious hybrid cucumber varieties in terms of yield, quality, and maturity to meet the national demand. Additionally, ensuring year-round cucumber production is essential to guarantee its availability in the market. The production of high yielding gynoecious cucumber hybrids within protected structures such as plastic houses could be a feasible option to fulfill the domestic demand and ensure year-round availability in the market..

Published

2024

26. Chirostoma estor, iluminación continua, alimentación frecuente.

Author

Montañez-De Azcué, Diego, Cristóbal-Alejo, Jairo, Uc-Várguez, Alberto, Amalia Moo-Koh, Felicia, and María Tun-Suárez, José

Subjects

ANTIFUNGAL agents, LAGENARIA siceraria, PLANT-fungus relationships, AGRICULTURE, ASPERGILLUS flavus, ENDOPHYTIC fungi

Abstract

Copyright of Ecosistemas y Recursos Agropecuarios is the property of Universidad Juarez Autonoma de Tabasco and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

27. Biocontrol Potential of Trichoderma Ghanense and Trichoderma Citrinoviride toward Pythium aphanidermatum.

Author

Al-Shuaibi, Badriya Khalfan, Kazerooni, Elham Ahmed, Al-Maqbali, Dua'a, Al-Kharousi, Moza, Al-Yahya'ei, Mohamed N., Hussain, Shah, Velazhahan, Rethinasamy, and Al-Sadi, Abdullah Mohammed

Subjects

*PYTHIUM, *ANTAGONISTIC fungi, *BIOLOGICAL pest control agents, *TRICHODERMA, *PLANT stems, *SOIL sampling, *FUNGICIDE resistance, *PLANT growth

Abstract

Pythium-induced damping-off of cucumber is a major constraint to cucumber production in different parts of the world. Although chemical fungicides are used for managing this disease, they have many drawbacks to the environment. The ability of the antagonistic fungi isolated from the rhizosphere and endosphere of Dactyloctenium robecchii and Moraea sisyrinchium in the control of soilborne pathogen Pythium aphanidermatum was inspected. Native Trichoderma isolates, Trichoderma ghanense and Trichoderma citrinoviride, were isolated from plant stem and soil samples collected from Al-Seeb, Oman. Using a dual culture technique, the antagonistic activity of the fungal isolates against P. aphanidermatum was examined in vitro. Among Trichoderma isolates, T. ghanense was more efficient in restraining the mycelial growth of P. aphanidermatum, causing an inhibition percentage of 44.6%. Further, T. citrinoviride induced significantly lower cessation of P. aphanidermatum mycelial growth (31.3%). Microscopic and electrolyte leakage inspection of the pathogen mycelia depicted extreme morphological malformations in their mycelium, which can be attributed to the antifungal metabolites of antagonists. Greenhouse studies demonstrated the effectivity of T. ghanense in controlling Pythium damping-off of cucumber plants, where the number of surviving plants was over 90% when the biocontrol agents were used compared to 0 in the control plants. Furthermore, treatment of the plants with the antagonists promoted growth characteristics of plants compared to uninoculated plants. This included improvements in shoot and root lengths, leaf length and width, and dry weight. These findings suggest that T. ghanense and T. citrinoviride can be developed as alternatives to synthetic chemical fungicides to manage soilborne pathogens of cucumber. This research is also the first to clarify the biocontrol ability of T. citrinoviride and T. ghanense against cucumber damping-off caused by P. aphanidermatum. [ABSTRACT FROM AUTHOR]

Published

2024

28. Evaluating the Soil Block Method and Growing Media in Organic Vegetable Transplant Production.

Author

Carey, Anne, Nair, Ajay, and Thoms, Adam

Subjects

*CUCUMBERS, *PEPPERS, *POTTING soils, *CUCUMBER growing, *PEPPER growing, *FARMERS, *ISLANDS

Abstract

Organic vegetable growers are interested in using the “soil block” method for transplant production as an alternative to plastic flats. The soil block method compresses growing media into a freestanding block in contrast to the cells of a plastic flat. Anecdotal evidence of soil block–grown transplants with increased vigor and root development exists, but limited research has been conducted to evaluate these claims. Furthermore, identifying commercial growing medium for certified organic transplant production is needed. The objective of this study was to compare growth parameters and root development of cucumber (Cucumis sativus) and pepper (Capsicum annum) transplants grown in soil blocks and plastic flats, in combination with four commercially available certified organic media (Beautiful Land Products “Soil Blocking Mix,” Purple Cow Organics “Seed Starter Mix,” Cowsmo “Green Potting Soil,” and Vermont Compost Company “Fort Vee”). A volume-based 50% peat, 25% compost, 12.5% perlite, and 12.5% vermiculite growing medium was also evaluated. A split-plot randomized complete block design with four replications was used with growing method as the whole plot factor and medium as the subplot factor. ‘Marketmore 76’ cucumbers and ‘Yankee Bell’ peppers were seeded in 50-cell flats and soil blocks made with Johnny’s Selected Seeds Stand-up 12 Soil Blocker. Data were collected on growth parameters by destructively sampling cucumbers 3 weeks after seeding, and peppers 5, 6, and 7 weeks after seeding. Root development was evaluated using WinRHIZOTM at the last sampling. Cucumber and pepper transplants performed differently in soil blocks and flats. Cucumbers grown in flats had a significantly greater dry weight than those grown in soil blocks, by 20% in 2022 and by 38% in 2023. In contrast, pepper transplants grown with the soil block method had between 50% and 130% greater dry weight in the final sampling in 2022. Cucumber and pepper transplants grown with Cowsmo “Green Potting Soil” performed poorly, with an up to 144% lower dry weight and up to 167% lower root surface area than transplants grown with the other media. Root development correlated with shoot development, without a specific advantage in soil blocks, although differences in root system architecture should be investigated. The evaluated Beautiful Land Products, Purple Cow Organics, and Vermont Compost Company media can all be considered suitable for growing certified organic vegetable transplants in both soil blocks and flats. Further research is warranted to better optimize the soil block technique, investigate optimum soil block bulk density, and inform growers of appropriate commercially available certified organic growing media for organic vegetable transplant production. [ABSTRACT FROM AUTHOR]

Published

2024

29. Obtaining and Studying In Situ a Chitosan–Titanium Dioxide Composite Material for Agriculture.

Author

Baikin, A. S., Melnikova, A. A., Sergeeva, K. S., Baryshev, A. S., Pobedonostsev, R. V., Kaplan, M. A., Baranova, D. D., Andreevskaya, V. M., Zhelezova, S. V., Kolmakov, A. G., and Sevostyanov, M. A.

Abstract

Granules of a chitosan–titanium dioxide composite material with different concentrations of titanium dioxide nanoparticles for agricultural use are obtained. The average diameter of the granules is 35 mm. It is shown that varying the concentration of titanium dioxide nanoparticles in the composite material within the studied limits does not affect the structure of its surface. Experiments are carried out in situ on the seeds of cucumber (Cucumis sativus). It is noted that, during the first three weeks, the composite material has an inhibitory effect on plant growth, and then, after the onset of dissolution of the granules, it has a growth-stimulating effect. The best growth rates are observed when two granules of a composite material with a ratio of chitosan to titanium dioxide of 3 to 1 are added to the soil. It is concluded that the obtained granules of a chitosan–titanium dioxide composite material can have a positive effect on the processes of plant growth and formation. [ABSTRACT FROM AUTHOR]

Published

2024

30. New Acylated C,O-Glycosylflavones from Cucumis sativus.

Author

Olennikov, D. N. and Kashchenko, N. I.

Subjects

*CUCUMBERS, *CUCURBITACEAE

Abstract

Seven new acylated C,O-glycosylflavones were isolated from leaves of Cucumis sativus L. (Cucurbitaceae) variety Gele Tros. The new compounds were isovitexin 4′-O-glucoside-2′′-O-(6′′′′-O-caffeyl)-glucoside (cucumoside A), isovitexin 4′-O-glucoside-2′′-O-(2′′′′-O-caffeyl)-glucoside (cucumoside B), isovitexin 4′-O-(2′′′-O-caffeyl)-glucoside-2′′-O-glucoside (cucumoside C), isovitexin 4′-O-glucoside-2′′-O-(6′′′′-O-sinapoyl)-glucoside (cucumoside D), isovitexin 4′-O-glucoside-2′′-O-(2′′′′-O-sinapoyl)-glucoside (cucumoside E), isovitexin 4′-O-glucoside-2′′-O-(2′′′′-O-feruloyl)-glucoside (cucumoside F), and isovitexin 4′-O-glucoside-2′′-O-(2′′′′-O-p-coumaroyl)-glucoside (cucumoside G). [ABSTRACT FROM AUTHOR]

Published

2024

31. Improving Salinity Tolerance of Cucumber Plants Grown under Shadehouse Conditions by Grafting onto Some Genotypes and F1 Hybrids of Cucurbit Rootstocks.

Author

Abdel-Wahab, Ahmed, Mohamed, Mohamed I. A., Hanafy, Shaimaa A. H., and El-Mohammady, Mohamed M. S.

Subjects

CUCUMBERS, CUCUMBER growing, ROOTSTOCKS, LAGENARIA siceraria, AGRICULTURE, SALINITY

Abstract

Copyright of Scientific Journal of Agricultural Sciences (SJAS) is the property of Beni Suef University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

32. Piriformospora indica modifies cucumber’s tolerance to Meloidogyne incognita by regulating various agro-physiological traits, antioxidant enzymes, and abscisic acid pathway genes

Author

Mohamed M. EL-MOGY, Mohamed A.M. ATIA, Nour El-Houda A. REYAD, Mohamed ABDELSATTAR, Dina S.S. IBRAHIM, Abdel Wahab M. MAHMOUD, Suzy M. ABDELAZIZ, Emad A. ABDELDAYM, and Mohamed E. ABDELAZIZ

Subjects

Cucumis sativus, marketable yield, nutrient uptake, phytohormones, root knot nematode, Forestry, SD1-669.5, Agriculture (General), S1-972

Abstract

Root knot nematode (RKN), Meloidogyne incognita, is considered a major soil-borne pathogen that can cause severe yield losses for vegetables and diverse crops. Usually, reducing of M. incognita damage is mainly relies on the application of nematicides and good agricultural practices. However, the use of synthetic nematicides is restricted due to concerns about their impact on the environment and human health. As a result, the use of alternative strategies is becoming necessary to combat RKN resistance. This study evaluates the antagonistic impact of the root mutualistic fungus Pirforomospora indica on M. incognita. It also assesses its influence on the nutritional status, photo-synthesis, antioxidant enzyme activity, endogenous abscisic acid (ABA) levels, and selected ABA related-responsive genes in cucumber plants. Roots of cucumber seedlings were inoculated with P. indica and the second-stage juveniles (1000 J2 per plant). The results demonstrated that P. indica significantly reduced M. incognita invasion in roots, resulting in a 24% reduction in root galling and 42.6% decline in final population. Inoculating plants with both P. indica and RKN increased performance of root fresh and dry weight, as well as improved photochemical efficiency of PSII (Fv/Fm), photosystem II efficiency (PSII), catalase (CAT), peroxidase (POD), and superoxide dis-mutase (SOD). Furthermore, P. indica colonization, either alone or in combination with M. incognita, significantly improved number of fruits per plant, average fruit weight, the plant's marketable yield, and leaf nutrient content (N, P, K and Mg), Moreover, there was an increase in IAA content combined with a decrease in ABA content in roots of dual inoculation plants, if compared to M. incognita infested plants. The highest ABA content was recorded in the root of RKN-cucumber plants. The decline in ABA content due to P. indica treatment was consistent with the modulation of ABA pathway genes, specifically PP2C, PYL1, RK2,1, and RK2,2. The mixed of P. indica and M. incognita led to a decrease in the expression of PP2C, PLY1, RK2,1, and RK2,2 in comparison to the control group. These results indicate that P. indica application could help reduce the negative effects of RKN on important crops.

Published

2024

33. Validating the Vegetable Variety Navigator Decision-support Tool Using Recent On-farm Variety Trial Data

Author

Caleb D. Wehrbein and Sam E. Wortman

Subjects

brassica oleracea var. italica, broccoli, capsicum annuum, cucumber, cucumis sativus, sweet pepper, Plant culture, SB1-1110

Abstract

Local variety trial data are necessary for informing growers how a specific variety might perform on their farm but there is a growing deficiency in these data, particularly for specialty crops. To address this issue, an online decision-support tool named the Vegetable Variety Navigator (VVN) was developed in 2020 to compile, analyze, and visually communicate publicly available broccoli (Brassica oleracea var. italica), cucumber (Cucumis sativus), and sweet pepper (Capsicum annuum) variety trial data. To validate the accuracy and predictive potential of the VVN, we conducted 16 on-farm variety trials for broccoli, cucumber, and sweet pepper between 2020 and 2022. Yield of each variety in a trial was compared with the mean of all other varieties in the same trial to calculate a mean relative yield (MRY). The difference between observed relative yield in the field and predicted relative yield from the VVN (ΔMRY) was used to assess the accuracy of three different VVN prediction strategies. Strategies included using data from the following: 1) the single geographically nearest trial, 2) the mean of the three geographically nearest trials, or 3) the mean of all available trial data regardless of location. Compared with random predictions of MRY for each variety (from within a normal distribution of MRY values in the VVN database), the VVN predictions reduced ΔMRY and improved the accuracy of relative yield predictions across varieties by up to 21% in broccoli, 51% in cucumber (depending on strategy), and 51% in sweet pepper. Results confirm the value of the VVN as a decision-support tool for growers facing an ever-increasing number of crop variety options with less variety trial data. Future research and development are needed to improve the accuracy of the VVN by accounting for possible effects of crop types, management, and location on relative yield and quality.

Published

2024

34. Efecto antifúngico in vitro de hongos endófitos de cucurbitáceas criollas de Yucatán

Author

Diego Montañez-De Azcué, Jairo Cristóbal-Alejo, Alberto Uc-Várguez, Felicia Amalia Moo-Koh, and José María Tun Suárez

Subjects

Antibiosis, Cucumis sativus, Cultivos duales, Hongos fitopatógenos, Lagenaria siceraria, Agriculture

Abstract

Los hongos endófitos son microorganismos simbiontes de plantas, diversos y abundantes en regiones tropicales, con gran potencial como agentes biocontroladores de enfermedades fúngicas agrícolas. El objetivo del presente trabajo fue evaluar la actividad antifúngica in vitro de los hongos endófitos asociados con cultivares criollos de Cucumis sativus y Lagenaria siceraria de Yucatán. Las cepas endófitas fueron aisladas e identificadas de diferentes órganos de las plantas, para posteriormente ser sometidas a enfrentamientos duales y pruebas de antibiosis. Se identificaron 20 especies de hongos endófitos con efectos antifúngicos contra Corynespora cassiicola, Colletotrichum truncatum y Fusarium equiseti, obteniendo rangos de inhibición de 17.72–100%, 16.51–91.55% y 4.64–91.89%, respectivamente. Aspergillus flavus, Lasiodiplodia pseudotheobromae y Trichoderma longibrachiatum exhibieron los mayores porcentajes de inhibición contra los tres fitopatógenos. Así mismo, estas tres especies de endófitos demostraron un efecto antibiótico en sus extractos, al inhibir principalmente el crecimiento de F. equiseti hasta en un 46.46%. La cepa de L. pseudotheobromae tiene características que le confieren un potencial como agente antifúngico, por lo que se deberán seguir explorando sus aplicaciones y condiciones de crecimiento. Este trabajo representa un primer esfuerzo por conocer la diversidad de hogos endófitos en los cultivos criollos de la región.

Published

2024

35. To spread or not to spread? Assessing the suitability of sewage sludge and other biogenic wastes for agriculture reuse

Author

Giorgio Bertanza, Alessandro Abbà, Carlotta Alias, Achille Amatucci, Andrea Binelli, Sara Castiglioni, Marco Fossati, Catarina Cruzeiro, Camilla Della Torre, Marta Domini, Donatella Feretti, Gianni Gilioli, Stefano Magni, Giovanna Mazzoleni, Michele Menghini, Roberta Pedrazzani, Peter Schroeder, Anna Simonetto, Nathalie Steimberg, Vera Ventura, Simona Vezzoli, and Ilaria Zerbini

Subjects

Allium cepa, Ames test, Comet assay, Compost, Cucumis sativus, Endocrine disruption, Science

Abstract

Sewage sludge (biosolids) management represents a worldwide issue. Due to its valuable properties, approximately one half of the EU production is recovered in agriculture. Nevertheless, growing attention is given to potential negative effects deriving from the presence of harmful pollutants. It is recognized that a (even very detailed) chemical characterization is not able to predict ecotoxicity of a mixture. However, this can be directly measured by bioassays. Actually, the choice of the most suitable tests is still under debate. This paper presents a multilevel characterization protocol of sewage sludge and other organic residues, based on bioassays and chemical-physical-microbiological analyses. The detailed description of the experimental procedure includes all the involved steps: the criteria for selecting the organic matrices to be tested and compared; the sample pre-treatment required before the analyses execution; the chemical, physical and microbiological characterisation; the bioassays, grouped in three classes (baseline toxicity; specific mode of action; reactive mode of action); data processing. The novelty of this paper lies in the integrated use of advanced tools, and is based on three pillars: • the direct ecosafety assessment of the matrices to be reused. • the adoption of innovative bioassays and analytical procedures. • the original criteria for data normalization and processing.

Published

2024

36. Effect of different organic and inorganic fertilizers on the enhancement of growth and yield of cucumber

Author

O. Sangam, T.Regmi, S.Bhandari, S.Neupane, S.Khadka, M.Basnet, S.Rijal, S.P.Singh Yadav, and S.Katel

Subjects

cucumber, cucumis sativus, fertilizers, calbomin, vermicompost, Plant culture, SB1-1110

Abstract

The present research aimed to investigate the impact of both organic and inorganic fertilizers on cucumber growth and yield. The experiment followed a randomized complete block design with three replications, involving seven treatment combinations: T1 (control), T2 (FYM), T3 (Vermicompost), T4 (NPK), T5 (NPK + 0.5% B), T6 (NPK + 0.5% Ca), and T7 (NPK + 0.5% Calbomin). The results revealed significant differences among the treatments. Treatment T2 (FYM) exhibited notable effects on various growth parameters, including the number of true leaves (35.91), leaf size (97.81 cm²), number of flowers (4.12), and number of fruits (4.37). On the other hand, T3 (vermicompost) significantly influenced plant height (156.9 cm), fruit size (34.902 cm²), and cucumber yield (17.53 Mt/ha). Conversely, the control group (T1) displayed the lowest response in terms of cucumber growth and yield parameters. Based on the findings, it is recommended that in inner Terai regions, such as Tulsipur, Dang in the Nepal, the application of the recommended dose of vermicompost be considered to achieve maximum yield, specifically in the range of 2-3 tons per hectare.

Published

2023

37. The qLTG1.1 candidate gene CsGAI regulates low temperature seed germination in cucumber

Author

Li, Caixia, Dong, Shaoyun, Beckles, Diane M, Miao, Han, Sun, Jiaqiang, Liu, Xiaoping, Wang, Weiping, Zhang, Shengping, and Gu, Xingfang

Subjects

Agricultural, Veterinary and Food Sciences, Plant Biology, Biological Sciences, Crop and Pasture Production, Genetics, Abscisic Acid, Cucumis sativus, Gene Expression Regulation, Plant, Germination, Gibberellins, Seeds, Temperature, Agricultural and Veterinary Sciences, Technology, Plant Biology & Botany, Crop and pasture production, Plant biology

Abstract

Key messageThe CsGAI gene, identified by map-based, was involved in regulating seed germination in low temperature via the GA and ABA signaling pathways. Low temperature reduces the percentage of seeds germinating and delays seed germinating time, thus posing a threat to cucumber production. However, the molecular mechanism regulating low temperature germination in cucumber is unknown. We here dissected a major quantitative trait locus qLTG1.1 that controls seed germination at low temperature in cucumber. First, we fine-mapped qLTG1.1 to a 46.3-kb interval, containing three candidate genes. Sequence alignment and gene expression analysis identified Csa1G408720 as the gene of interest that was highly expressed in seeds, and encoded a highly conserved, low temperature-regulated DELLA family protein CsGAI. GUS expression analysis indicated that higher promoter activity underscored higher transcriptional expression of the CsGAI gene. Consistent with the known roles of GAI in ABA and GA signaling during germination, genes involved in the GA (CsGA2ox, CsGA3ox) and ABA biosynthetic pathways (CsABA1, CsABA2, CsAAO3 and CsNCED) were found to be differently regulated in the tolerant and sensitive genotypes under low temperatures, and this was reflected in differences in their ratio of GA-to-ABA. Based on these data, we proposed a working model explaining how CsGAI integrates the GA and ABA signaling pathways, to regulate cucumber seed germination at low temperature, thus providing new insights into this mechanism.

Published

2022

38. Do DEEPER ROOTING 1 Homologs Regulate the Lateral Root Slope Angle in Cucumber (Cucumis sativus)?

Author

Kiryushkin, Alexey S., Ilina, Elena L., Kiikova, Tatyana Y., Pawlowski, Katharina, and Demchenko, Kirill N.

Subjects

*CUCUMBERS, *ROOT development, *GENETIC regulation, *GENOME editing, *PLANT productivity, *ROOT growth

Abstract

The architecture of the root system is fundamental to plant productivity. The rate of root growth, the density of lateral roots, and the spatial structure of lateral and adventitious roots determine the developmental plasticity of the root system in response to changes in environmental conditions. One of the genes involved in the regulation of the slope angle of lateral roots is DEEPER ROOTING 1 (DRO1). Its orthologs and paralogs have been identified in rice, Arabidopsis, and several other species. However, nothing is known about the formation of the slope angle of lateral roots in species with the initiation of lateral root primordia within the parental root meristem. To address this knowledge gap, we identified orthologs and paralogs of the DRO1 gene in cucumber (Cucumis sativus) using a phylogenetic analysis of IGT protein family members. Differences in the transcriptional response of CsDRO1, CsDRO1-LIKE1 (CsDRO1L1), and CsDRO1-LIKE2 (CsDRO1L2) to exogenous auxin were analyzed. The results showed that only CsDRO1L1 is auxin-responsive. An analysis of promoter–reporter fusions demonstrated that the CsDRO1, CsDRO1L1, and CsDRO1L2 genes were expressed in the meristem in cell files of the central cylinder, endodermis, and cortex; the three genes displayed different expression patterns in cucumber roots with only partial overlap. A knockout of individual CsDRO1, CsDRO1L1, and CsDRO1L2 genes was performed via CRISPR/Cas9 gene editing. Our study suggests that the knockout of individual genes does not affect the slope angle formation during lateral root primordia development in the cucumber parental root. [ABSTRACT FROM AUTHOR]

Published

2024

39. Defense Mechanisms Induced by Celery Seed Essential Oil against Powdery Mildew Incited by Podosphaera fusca in Cucumber.

Author

Soleimani, Hajar, Mostowfizadeh-Ghalamfarsa, Reza, Ghanadian, Mustafa, Karami, Akbar, and Cacciola, Santa Olga

Subjects

*CUCUMBERS, *POWDERY mildew diseases, *ESSENTIAL oils, *OILSEEDS, *GAS chromatography/Mass spectrometry (GC-MS), *POLYPHENOL oxidase, *CHLOROPHYLL, *PEROXIDASE

Abstract

This study aimed to evaluate the effectiveness of essential oil extracted from celery (Apium graveolens) seeds (CSEO) for the control of powdery mildew of cucumber (Cucumis sativus) incited by Podosphaera fusca and to investigate the metabolic and genetic defense mechanisms triggered by the treatment with this essential oil in cucumber seedlings. The main compounds in the CSEO as determined by gas chromatography–mass spectrometry (GC-MS) analysis were d-limonene, 3-butyl phthalide, β-selinene, and mandelic acid. The treatment with CSEO led to an increase in the content of both chlorophyll and phenolic/flavonoid compounds in cucumber leaves. In greenhouse tests, the application of CSEO reduced by 60% the disease severity on leaves of cucumber plants and stimulated the activity of defense-related enzymes such as β-1,3-glucanase, chitinase, phenylalanine ammonia-lyase, peroxidase, and polyphenol oxidase. Moreover, treatment with CSEO induced overexpression of β-1,3-glucanase, chitinase, and phenylalanine ammonia-lyase genes. A highly significant correlation was found between the β-1,3-glucanase, chitinase, and phenylalanine ammonia-lyase enzymatic activities and the relative expression of the corresponding encoding genes in both inoculated and non-inoculated cucumber seedlings treated with the essential oil. Overall, this study showed that CSEO is a promising eco-friendly candidate fungicide that can be exploited to control cucumber powdery mildew. [ABSTRACT FROM AUTHOR]

Published

2024

40. Pan-Genome-Wide Identification and Transcriptome-Wide Analysis of ZIP Genes in Cucumber.

Author

Wang, Zimo, Yin, Mengmeng, Han, Jing, Wang, Xuehua, Chang, Jingshu, Ren, Zhonghai, and Wang, Lina

Subjects

CUCUMBERS, AMINO acid sequence, DOWNY mildew diseases, POWDERY mildew diseases, GENES, PAN-genome

Abstract

The ZRT/IRT-like proteins (ZIPs) play critical roles in the absorption, transport, and intracellular balance of metal ions essential for various physiological processes in plants. However, little is known about the pan-genomic characteristics and properties of ZIP genes in cucumber (Cucumis sativus L.). In this study, we identified 10 CsZIP genes from the pan-genome of 13 C. sativus accessions. Among them, only CsZIP10 showed no variation in protein sequence length. We analyzed the gene structure, conserved domains, promoter cis-elements, and phylogenetic relationships of these 10 CsZIP genes derived from "9930". Based on phylogenetic analysis, the CsZIP genes were classified into three branches. Amino acid sequence comparison revealed the presence of conserved histidine residues in the ZIP proteins. Analysis of promoter cis-elements showed that most promoters contained elements responsive to plant hormones. Expression profiling in different tissues showed that most CsZIP genes were expressed at relatively low levels in C. sativus leaves, stems, and tendrils, and CsZIP7 and CsZIP10 were specifically expressed in roots, indicating their potential involvement in the absorption and transport of metal ions. Transcriptomic data indicated that these 10 ZIP genes displayed responses to both downy mildew and powdery mildew, and CsZIP1 was significantly downregulated after both salt and heat treatments. In conclusion, this study deepens our understanding of the ZIP gene family and enhances our knowledge of the biological functions of CsZIP genes in C. sativus. [ABSTRACT FROM AUTHOR]

Published

2024

41. ASSESSMENT OF GROWTH CHARACTERISTICS AND YIELD OF DIFFERENT CUCUMBER CULTIVARS.

Author

KHATRI, Shreesha, SHRESTHA, Shruti, SUBEDI, Sudip, KATEL, Shambhu, and ADHİKARI, Roshani

Subjects

*CUCUMBER growing, *CUCUMBER yields, *FRUIT weights & measures, *FLOWERING of plants, *CUCUMBER research

Abstract

A field experiment was carried out to determine the performance of different cucumber varieties. The research was carried out in Randomized Complete Block Design (RCBD) with 4 treatments and 6 replications. The varieties used are Bhaktapur local, Kamini, Ragini, and Ranjha. Data were collected on the following parameters such as stem length, plant height, number of leaves, number of branches, number of male flowers, number of female flowers, days to first flowering, male to female flower ratio, days to first male flowering, days to first female flowering, fruit weight, fruit length, number of fruits per plant and yield. It is found that among the performance of different varieties, Kamini was the best high yielding variety for this locality with a yield of 58.93 ton ha-1 followed by Ranjha. Kamini exhibited a greater count of female flowers and fruits. In comparison, Bhaktapur local outperformed other varieties in various aspects such as plant height (193.37 cm), number of leaves (42.39), number of branches (7.13), and male to female ratio (2.63). [ABSTRACT FROM AUTHOR]

Published

2023

42. Characterization of caffeoyl shikimate esterase gene family identifies CsCSE5 as a positive regulator of Podosphaera xanthii and Corynespora cassiicola pathogen resistance in cucumber.

Author

Yu, Yongbo, He, Jiajing, Liu, Linghao, Zhao, Hongyan, Zhang, Mengmeng, Hong, Jinghang, Meng, Xiangnan, and Fan, Haiyan

Subjects

*GENE families, *CORYNESPORA, *CUCUMBERS, *GENE silencing, *POWDERY mildew diseases, *LEAF spots

Abstract

Key message: CsCSE genes might be involved in the tolerance of cucumber to pathogens. Silencing of the CsCSE5 gene resulted in attenuated resistance of cucumber to Podosphaera xanthii and Corynespora cassiicola. Caffeoyl shikimate esterase (CSE), a key enzyme in the lignin biosynthetic pathway, has recently been characterized to play a key role in defense against pathogenic infection in plants. However, a systematic analysis of the CSE gene family in cucumber (Cucumis sativus) has not yet been conducted. Here, we identified eight CsCSE genes from the cucumber genome via bioinformatic analyses, and these genes were unevenly distributed on chromosomes 1, 3, 4, and 5. Results from multiple sequence alignment indicated that the CsCSE proteins had domains required for CSE activity. Phylogenetic analysis of gene structure and protein motifs revealed the conservation and diversity of the CsCSE gene family. Collinearity analysis showed that CsCSE genes had high homology with CSE genes in wax gourd (Benincasa hispida). Cis-acting element analysis of the promoters suggested that CsCSE genes might play important roles in growth, development, and stress tolerance. Expression pattern analysis indicated that CsCSE5 might be involved in regulating the resistance of cucumber to pathogens. Functional verification data confirmed that CsCSE5 positively regulates the resistance of cucumber to powdery mildew pathogen Podosphaera xanthii and target leaf spot pathogen Corynespora cassiicola. The results of our study provide information that will aid the genetic improvement of resistant cucumber varieties. [ABSTRACT FROM AUTHOR]

Published

2023

43. Physiological Responses of Cucumber Plants to Application of Sodium Lignosulfonate on Sandy Loam Soil.

Author

Ikkonen, E. N. and Yurkevich, M. G.

Subjects

*SANDY loam soils, *CUCUMBERS, *SOIL salinization, *SODIUM, *SOIL fertility

Abstract

The issue of using lignosulfonates (LSs) to improve soil fertility is currently under discussion. The effect of the sodium LS application on the accumulation of biomass, photosynthesis, respiration, and their ratio in cucumber plants was studied. The application of LS at 10–25 g/kg did not have any significant effect on the studied parameters of the physiological state of plants. However, the growth rate and activity of the photosynthetic apparatus decreased at a high content of LS in the soil (50–100 g/kg) and the rate of respiration increased resulting in an increased ratio of respiration to photosynthesis. High concentrations of LS in the soil negatively affected the physiological state of the cucumber and its resistance to cold, which is explained presumably by sodium salinization of the soil. [ABSTRACT FROM AUTHOR]

Published

2023

44. Enhancement of phenylalanine ammonia-lyase activity in cucumber and chilli seedlings by aqueous extract of Cleistanthus collinus.

Author

Kadoo, Monal R. and Badere, Rupesh S.

Abstract

The aqueous extract of the aerial parts of commonly available plants in Nagpur (India) was screened for their ability to induce the activity of phenylalanine ammonia-lyase (PAL) in cucumber and chilli. C. collinus induced PAL activity in both crop species effectively after 55 hours of elicitation. Later, the C. collinus extract was fractionated over a silica gel column. The fraction collected with 90% methanol also induced the activity of PAL in the seedlings. However, the fractions eluted with 45 and 0% aqueous methanol failed to induce PAL activity. These findings indicate the efficacy of the extract to trigger active defence responses in cucumber and chilli seedlings. Therefore, C. collinus can be useful in developing an organic formulation for crop protection. [ABSTRACT FROM AUTHOR]

Published

2023

45. Cucumber Bioassay and HPLC Analysis to Detect Diuron Residues in Remineralized Soils Following Canavalia ensiformis Cultivation as a Phytoremediator.

Author

Araujo, Grazielle Rodrigues, da Silva, Laryssa Barbosa Xavier, Vaz, Valter, Borges, Maiara Pinheiro da Silva, Spolidorio, Eduardo Scarpari, and Mendes, Kassio Ferreira

Subjects

CUCUMBERS, DIURON, HIGH performance liquid chromatography, BIOLOGICAL assay, WEED control

Abstract

The aim of this study was to evaluate the role of rock powder in the phytoremediation of Inceptisol (sandy loam) and Oxisol (clay) contaminated with diuron. Canavalia ensiformis plants were grown in pots containing 7.5 kg of both soils, with doses of 0, 4, and 8 t ha−1 of rock powder. Diuron was applied in doses ranging from 875 to 3500 g of a.i. ha−1. The injury level was assessed at 42 days after emergence (DAE), and the morphological characteristics were assessed at 120 DAE. After phytoremediation, the soil was analyzed using High Performance Liquid Chromatography (HPLC) and by bioassay with cucumber (Cucumis sativus) to detect diuron. In Oxisol, no injury was observed, and the rock powder (4 t ha−1) benefited the growth of C. ensiformis regardless of the dose of diuron. In Inceptisol, the greatest reduction in growth occurred with 3500 g a.i. ha−1 of diuron and 8 t ha−1 of rock powder. Diuron was detected after 120 days in Inceptisol with 2625 g a.i. ha−1 without rock powder and 3500 g a.i. ha−1 with and without rock powder. The cucumber bioindicator in Inceptisol showed an increase in the level of injury as the dose of diuron increased. The rock powder favored the growth of C. ensiformis and was able to phytoremediate high concentrations of diuron, which supports the safe use of this herbicide for weed control, minimizing environmental impacts. [ABSTRACT FROM AUTHOR]

Published

2023

46. Catalytic and antimicrobial activities of cucumber leaf extract-based organic@inorganic hybrid nanoflowers through Fenton-like reaction.

Author

Erdem, Tuğçe and Koca, Fatih Doğan

Abstract

For the synthesis of organic@inorganic hybrid nanoflowers (hNFS), instead of expensive biomolecules such as DNA, enzyme, and protein, the Cucumis sativus (cucumber) leaf extract was used as an organic component in this study. In the PBS buffer with different pH (5, 7.4, and 9), hNFs were synthesized using extract with different volumes, but these parameters (concentration and pH) significantly affected the morphological characteristics of hNFs. Morphologies, elemental compositions, and organic groups that play key role in the synthesis of hNFs were detailed using FE-SEM, EDX, and FT-IR analyses, respectively. hNFs with ideal flower morphology (synthesized at pH 7.4 with 1 ml extract) showed antimicrobial activity against Staphylococcus aureus and Escherichia coli strains. Antimicrobial activity against strains and peroxidase-like activity against guaiacol of hNFs are explained by Fenton mechanisms. [ABSTRACT FROM AUTHOR]

Published

2023

47. Regulatory Mechanisms of Strigolactones on the Development of Lateral Branches in Cucumber

Author

Tian Su, Ziwei Li, Yinghua Zhang, Junqiang Xu, and Bin Xu

Subjects

auxin, cucumis sativus, cytokinin, lateral branches, strigolactone, Plant culture, SB1-1110

Abstract

Cucumber (Cucumis sativus L.) belongs to the cucumber genus of the Cucurbitaceae family, and the selection of cultivars with minimal or no lateral branches can enhance the cultivation management efficiency. The growth of lateral branches is inhibited by strigolactone. To investigate the regulatory mechanism of strigolactone on the lateral branch development in cucumber, the cultivar LZ1 exhibiting multiple lateral branches was selected as the experimental material. The axillae of the plants were infiltrated with 1, 5, and 10 μmol·L−1 germination releaser 24 (GR24) at the four- to five-leaf stage. It was identified that 1 μmol·L−1 GR24 exhibited the most potent inhibitory effect on cucumber lateral branches. Additionally, exogenous strigolactone decreased the auxin content in the apical bud and axillae and increased the auxin content in the stem. This inhibited polar auxin transport in the axillary bud and promoted polar auxin transport in the apical bud. The content of strigolactone in the axilla region of cucumbers was elevated, whereas the synthesis and expression of cytokinin in the same area were reduced. A low concentration of GR24 induced the expression of cucumber branched 1 (csbrc1), whereas a high concentration of GR24 downregulated the expression of cucumber lateral suppressor (cscls) and blind (csblind), which inhibited the growth of cucumber lateral branches.

Published

2024

48. Varietal Tolerance of Cucurbitaceous Crops with S-metolachlor Applied Postemergence

Author

Kurt M. Vollmer, Lynn M. Sosnoskie, Mark J. VanGessel, and Thierry E. Besançon

Subjects

cucumis maximus, cucumis sativus, cucurbita pepo, cucurbita pepo subsp. pepo, herbicide, injury, Plant culture, SB1-1110

Abstract

Cucurbit crops comprise ∼25% of the vegetable acreage in the mid-Atlantic and Northeastern United States. However, options for postemergence weed control in these crops are limited. Overlapping herbicides is a technique that involves sequential applications of soil-applied residual herbicides to lengthen herbicidal activity before the first herbicide dissipates. Residual herbicides such as S-metolachlor will not control emerged weeds, but weed control efficacy may be extended if these herbicides are applied after crop emergence, but before weed emergence occurs. Currently S-metolachlor is not labeled for broadcast applications over cucurbit crops. Greenhouse studies were conducted to evaluate pumpkin, cucumber, and summer squash variety response to varying S-metolachlor rates. S-metolachlor was applied at 1.42 and 2.85 lb/acre at the two-leaf stage of pumpkin and 0.71, 1.42, 2.85, and 5.7 lb/acre at the two-leaf stage of cucumber and summer squash. Cucumber showed a greater response to S-metolachlor with up to 67% injury observed at 5.70 lb/acre. S-metolachlor applications to pumpkin and summer squash resulted in less than 6% injury, regardless of application rate or crop variety. S-metolachlor applied at 2.85 lb/acre reduced pumpkin and cucumber dry weight 6% and 19%, respectively, but did not reduce squash dry weight. S-metolachlor reduced cucumber dry weight 78% for all varieties. Pumpkin varieties ‘Munchkin’ and ‘Baby Bear’ exhibited a 23% difference in dry weight, but no other differences were observed among other varieties because of S-metolachlor applications. Summer squash varieties ‘Respect’ and ‘Golden Glory’ exhibited a 31% difference in dry weight, but no other differences were observed among other varieties. Results show that pumpkin and summer squash demonstrated good crop safety when S-metolachlor was applied as a broadcast treatment after crop emergence. However, caution should be urged when applying this herbicide to cucumber.

Published

2024

49. A Comparison Between Modified-umbrella and High-wire Trellising Systems in a Low-profile Greenhouse for Hydroponic Beit Alpha Cucumber

Author

Lily Kile, Elsa Sánchez, and Robert Berghage

Subjects

alternative production, cucumis sativus, drop and lean, high-profile, hydroponic, training, pruning, Plant culture, SB1-1110

Abstract

The production of Beit Alpha cucumber (Cucumis sativus) in hydroponic systems has increased in popularity since the early 2000s, along with the use of high-wire trellising systems. Some farmers claim the high-wire trellising systems, also known as drop-and-lean trellising, result in a more consistent weekly yield than umbrella or modified-umbrella systems. This study compared the high-wire and modified-umbrella trellising systems both using a 7 ft top wire and 4 plants/m2 plant density. The fruit weight and number of fruit per plant were significantly greater using the modified-umbrella trellising system, with the number of fruit being about twice as high as the high-wire trellising system. Consistency of yields was also measured for both systems and found to peak at ∼5 to 7 weeks after the start of harvest using both trellising systems. However, peak yields using the modified-umbrella trellising system followed a quadratic curve, implying that the high-wire trellising system results in more consistent yields. Differences in yield and harvest consistency were likely related to light penetration of the plant canopy. Growers using low-profile greenhouses can expect lower yields and more consistent harvests using the high-wire trellising system. Yields may be improved using a higher plant density. Alternatively, succession planting on a 5- to 7-week interval can improve harvest consistency using a modified-umbrella trellising system.

Published

2024

50. First Report of Soft Rot Caused by Pectobacterium brasiliense on Cucumber in Korea

Author

Soo-Min Hong, Kyoung-Taek Park, Leonid N. Ten, Chang-Gi Back, In-Kyu Kang, Seung-Yeol Lee, and Hee-Young Jung

Subjects

cucumber, cucumis sativus, pathogenicity, pectobacterium brasiliense, soft rot, Agriculture (General), S1-972

Abstract

Wilted and water-soaked lesion symptoms were observed on cucumbers in greenhouses located in Daejeon, Chungcheongnam-do, Korea, in June 2021. A bacterial strain, designated KNUB-04-21, was isolated from the cucumbers, which was subsequently identified as Pectobacterium brasiliense through a phylogenetic analysis based on sequences of the 16S rRNA region, dnaX, leuS, and recA genes. The biochemical characteristics of KNUB-04-21 were also similar to those of P. brasiliense through investigation using the API ID 32 GN system. The pathogenicity of KNUB-04-21 was confirmed by inoculating it into healthy cucumber plants. The reisolated strains were also found to be same to the original strain. To our knowledge, this is the first report of P. brasiliense being identified as the causative agent of cucumber soft rot in Korea.

Published

2023