Your search keyword '"post-harvest application"' showing total 10 results

1. A bacteriophage cocktail can efficiently reduce five important Salmonella serotypes both on chicken skin and stainless steel.

Author

Gvaladze, Tamar, Lehnherr, Hansjörg, and Hertwig, Stefan

Subjects

BACTERIOPHAGES, STAINLESS steel, SALMONELLA typhimurium, FOOD of animal origin, CHICKENS, SALMONELLA, SALMONELLA enteritidis

Abstract

Salmonella is one of the most important zoonotic pathogens and is mostly transmitted through food of animal origin. Application of bacteriophages is a promising tool to biocontrol Salmonella on both food and food contact surfaces. In this study, we evaluated the eectiveness of a six-phage cocktail for the reduction of Salmonella Enteritidis and a mixture of five major Salmonella serotypes (S. Enteritidis, Salmonella Typhimurium, Salmonella Infantis, Salmonella Paratyphi B, and Salmonella Indiana) on chicken skin and stainless steel. A phage cocktail with a final concentration of 107 PFU/cm² was sprayed on these surfaces. After adding the phage cocktail, the samples were incubated at RT (∼23◦C) for dierent periods of time. The phage cocktail caused a significant reduction of S. Enteritidis and the mixed culture on chicken skin 30 min after phage addition, with 1.8 log10 and 1 log10 units, respectively. Reduction rates (1.2–1.7 log10 units) on stainless steel after 30 min were similar. Four hours after addition, the phage cocktail caused a significant reduction on both surfaces up to 3 log10 units on chicken skin and 2.4 log10 units on stainless steel. In a further experiment, bacteria added to stainless steel were not allowed to dry to simulate a fresh bacterial contamination. In this case, the bacterial count of S. Enteritidis was reduced below the detection limit after 2 h. The results demonstrate that this phage cocktail has potential to be used in post-harvest applications to control Salmonella contaminations. [ABSTRACT FROM AUTHOR]

Published

2024

2. A bacteriophage cocktail can efficiently reduce five important Salmonella serotypes both on chicken skin and stainless steel

Author

Tamar Gvaladze, Hansjörg Lehnherr, and Stefan Hertwig

Subjects

Salmonella, phage, biocontrol, chicken, steel, post-harvest application, Microbiology, QR1-502

Abstract

Salmonella is one of the most important zoonotic pathogens and is mostly transmitted through food of animal origin. Application of bacteriophages is a promising tool to biocontrol Salmonella on both food and food contact surfaces. In this study, we evaluated the effectiveness of a six-phage cocktail for the reduction of Salmonella Enteritidis and a mixture of five major Salmonella serotypes (S. Enteritidis, Salmonella Typhimurium, Salmonella Infantis, Salmonella Paratyphi B, and Salmonella Indiana) on chicken skin and stainless steel. A phage cocktail with a final concentration of 107 PFU/cm2 was sprayed on these surfaces. After adding the phage cocktail, the samples were incubated at RT (~23°C) for different periods of time. The phage cocktail caused a significant reduction of S. Enteritidis and the mixed culture on chicken skin 30 min after phage addition, with 1.8 log10 and 1 log10 units, respectively. Reduction rates (1.2–1.7 log10 units) on stainless steel after 30 min were similar. Four hours after addition, the phage cocktail caused a significant reduction on both surfaces up to 3 log10 units on chicken skin and 2.4 log10 units on stainless steel. In a further experiment, bacteria added to stainless steel were not allowed to dry to simulate a fresh bacterial contamination. In this case, the bacterial count of S. Enteritidis was reduced below the detection limit after 2 h. The results demonstrate that this phage cocktail has potential to be used in post-harvest applications to control Salmonella contaminations.

Published

2024

3. A Technological Workflow for Ca Enrichment in Rocha Pears: Implication in Quality

Author

Pessoa, Cláudia Campos, Coelho, Ana Rita F., Luís, Inês Carmo, Marques, Ana Coelho, Daccak, Diana, Simões, Manuela, Reboredo, Fernando, Silva, Maria Manuela, Pessoa, Maria Fernanda, Galhano, Carlos, Campos, Paula Scotti, Pais, Isabel, Ramalho, José C., Lidon, Fernando C., da Costa Sanches Galvão, João Rafael, editor, Duque de Brito, Paulo Sérgio, editor, dos Santos Neves, Filipe, editor, da Silva Craveiro, Flávio Gabriel, editor, de Amorim Almeida, Henrique, editor, Correia Vasco, Joel Oliveira, editor, Pires Neves, Luís Miguel, editor, de Jesus Gomes, Ricardo, editor, de Jesus Martins Mourato, Sandra, editor, and Santos Ribeiro, Vânia Sofia, editor

Published

2021

4. Efficiency of Salicylic Acid Application on Postharvest Perishable Crops

Author

Supapvanich, S., Promyou, S., Hayat, Shamsul, editor, Ahmad, Aqil, editor, and Alyemeni, Mohammed Nasser, editor

Published

2013

5. Interactions of glyphosate use with farm characteristics and cropping patterns in Central Europe.

Author

Wiese, Armin, Steinmann, Horst‐Henning, Schulte, Michael, and Theuvsen, Ludwig

Subjects

FARMS, GLYPHOSATE, REGRESSION analysis, POSTHARVEST diseases, TILLAGE

Abstract

Abstract: BACKGROUND: Although glyphosate is the most widely used herbicide in the European Union, little is known about the patterns of its usage in arable farming. Therefore, a nationwide survey of 2026 German farmers was analysed to obtain further knowledge about glyphosate applications in conventional European arable farming. Given its broad range of agri‐environmental and farm‐type conditions, Germany can be regarded as a suitable study region to represent Central European farming. The growing season 2013/2014 was set as a reference. RESULTS: Farmers who participated in the survey employ diverse patterns of glyphosate use. While 23% stated that they did not use glyphosate in the season in question, others applied glyphosate to their total arable area. However, most applications occurred on specific parts of the farm. Application patterns of oilseed rape, winter wheat, maize and sugar beet were studied in detail, and U‐shaped distributions of glyphosate use intensity were observed. The effects of farm type and management practices on glyphosate use patterns were mixed in the various crops. CONCLUSION: Motivation for glyphosate use differs widely within the farming community. Agricultural researchers, extension services and policy makers are recommended to mitigate vulnerabilities associated with glyphosate use, such as routine spraying and practices that increase selection pressure for the evolution of glyphosate‐resistant weeds. © 2017 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published

2018

6. Novel Protein-Protein Inhibitor Based Approach to Control Plant Ethylene Responses: Synthetic Peptides for Ripening Control

Author

Mareike Kessenbrock, Simone M. Klein, Lena Müller, Mauricio Hunsche, Georg Noga, and Georg Groth

Subjects

ethylene signaling, ethylene receptors, peptide, ripening control, Solanum lycopersicum (tomato), post-harvest application, Plant culture, SB1-1110

Abstract

Ethylene signaling is decisive for many plant developmental processes. Among these, control of senescence, abscission and fruit ripening are of fundamental relevance for global agriculture. Consequently, detailed knowledge of the signaling network along with the molecular processes of signal perception and transfer are expected to have high impact on future food production and agriculture. Recent advances in ethylene research have demonstrated that signaling of the plant hormone critically depends on the interaction of the ethylene receptor family with the NRAMP-like membrane protein ETHYLENE INSENSITIVE 2 (EIN2) at the ER membrane, phosphorylation-dependent proteolytic processing of ER-localized EIN2 and subsequent translocation of the cleaved EIN2 C-terminal polypeptide (EIN2-CEND) to the nucleus. EIN2 nuclear transport, but also interaction with the receptors sensing the ethylene signal, both, depend on a nuclear localization signal (NLS) located at the EIN2 C-terminus. Loss of the tight interaction between receptors and EIN2 affects ethylene signaling and impairs plant ethylene responses. Synthetic peptides derived from the NLS sequence interfere with the EIN2–receptor interaction and have utility in controlling plant ethylene responses such as ripening. Here, we report that a synthetic peptide (NOP-1) corresponding to the NLS motif of Arabidopsis EIN2 (aa 1262–1269) efficiently binds to tomato ethylene receptors LeETR4 and NR and delays ripening in the post-harvest phase when applied to the surface of sampled green fruits pre-harvest. In particular, degradation of chlorophylls was delayed by several days, as monitored by optical sensors and confirmed by analytical methods. Similarly, accumulation of β-carotene and lycopene in the fruit pulp after NOP-1 application was delayed, without having impact on the total pigment concentration in the completely ripe fruits. Likewise, the peptide had no negative effects on fruit quality. Our molecular and phenotypic studies reveal that peptide biologicals could contribute to the development of a novel family of ripening inhibitors and innovative ripening control in climacteric fruit.

Published

2017

7. Novel Protein-Protein Inhibitor Based Approach to Control Plant Ethylene Responses: Synthetic Peptides for Ripening Control.

Author

Kessenbrock, Mareike, Klein, Simone M., Müller, Lena, Hunsche, Mauricio, Noga, Georg, and Groth, Georg

Subjects

PEPTIDOMIMETICS, FRUIT ripening, ETHYLENE receptors, PLANTS

Abstract

Ethylene signaling is decisive for many plant developmental processes. Among these, control of senescence, abscission and fruit ripening are of fundamental relevance for global agriculture. Consequently, detailed knowledge of the signaling network along with the molecular processes of signal perception and transfer are expected to have high impact on future food production and agriculture. Recent advances in ethylene research have demonstrated that signaling of the plant hormone critically depends on the interaction of the ethylene receptor family with the NRAMP-like membrane protein ETHYLENE INSENSITIVE 2 (EIN2) at the ER membrane, phosphorylation-dependent proteolytic processing of ER-localized EIN2 and subsequent translocation of the cleaved EIN2 C-terminal polypeptide (EIN2-CEND) to the nucleus. EIN2 nuclear transport, but also interaction with the receptors sensing the ethylene signal, both, depend on a nuclear localization signal (NLS) located at the EIN2 C-terminus. Loss of the tight interaction between receptors and EIN2 affects ethylene signaling and impairs plant ethylene responses. Synthetic peptides derived from the NLS sequence interfere with the EIN2-receptor interaction and have utility in controlling plant ethylene responses such as ripening. Here, we report that a synthetic peptide (NOP-1) corresponding to the NLS motif of Arabidopsis EIN2 (aa 1262-1269) efficiently binds to tomato ethylene receptors LeETR4 and NR and delays ripening in the post-harvest phase when applied to the surface of sampled green fruits pre-harvest. In particular, degradation of chlorophylls was delayed by several days, as monitored by optical sensors and confirmed by analytical methods. Similarly, accumulation of b-carotene and lycopene in the fruit pulp after NOP-1 application was delayed, without having impact on the total pigment concentration in the completely ripe fruits. Likewise, the peptide had no negative effects on fruit quality. Our molecular and phenotypic studies reveal that peptide biologicals could contribute to the development of a novel family of ripening inhibitors and innovative ripening control in climacteric fruit. [ABSTRACT FROM AUTHOR]

Published

2017

8. Mulberry fruit post-harvest management: Techniques, composition and influence on quality traits -A review.

Author

Herman, R.A., Ayepa, E., Fometu, S.S., Shittu, S., Davids, J.S., and Wang, J.

Subjects

*MULBERRY, *FRUIT, *FRUIT composition, *ORCHARDS, *PRESERVATION of fruit, *FRUIT quality, *FRUIT industry

Abstract

The mulberry (Morus sp.) fruit is noted for its yield during a fruiting season and a long history of usage as an edible fruit coupled with its medicinal qualities, particularly in Asia. However, its rapid postharvest decay has raised major concerns about the sustainability of the fruit both for food and economic purpose. For reasonably solid evaluations of postharvest preservations of produces, consideration must be committed to the viability of different control measures. In this review, we first highlight the nutritional composition of the fruit and some factors contributing to its rapid decay. Some alternative means of postharvest management including physical, chemical and biological procedures involved in preserving the fruit will be reviewed. Finally, the influence of management practices on the quality traits of the fruit will be summarized. The search for increasingly natural and sound sustenance products, based on insignificantly handled practices has brought about an expansion in customer necessities for safe and quality products, hence this review is focused on the preservation methods that are suitable to extend the shelf life of mulberry fruit. [ABSTRACT FROM AUTHOR]

Published

2022

9. Assessment of application timing of Bacillus spp. to supress pre- and postharvest diseases of apple

Author

Henry K. Ngugi, Paul A. Backman, Anissa Poleatewich, and Sustainable Agriculture and Natural Resource Management (SANREM) Knowledgebase

Subjects

Biological pest control, Bacillus cereus, Plant Science, Pest control, Bitter rot, Disease control, Cultivar, Field Scale, Bacillus mycoides, Pre-harvest application, biology, Inoculation, fungi, Apple, food and beverages, Apple scab, biology.organism_classification, Horticulture, Agronomy, Post-harvest application, Postharvest, Tree crops, Bacillus megaterium, bacteria, Preharvest, Bacillus spp, Agronomy and Crop Science, Biological control agent, Organic production

Abstract

Four isolates of Bacillus spp. were tested in a 2-year field study for biological control of pre- and postharvest diseases of apple. For the preharvest test, bacteria were applied to ‘Golden Delicious’ and ‘Rome Beauty’ trees in May or May and June. Foliar apple scab severity was assessed weekly. After harvest, fruit were wounded and then either left untreated or given a postharvest application of the bacteria. Wounded fruit were then inoculated with the bitter rot pathogen and lesion size was measured over 8 days. Bacillus megaterium isolate A3-6, B. mycoides isolate A1-1, and B. cereus isolate FLS-5 applied in May or May and June significantly reduced fruit and foliar apple scab severity in both years. A postharvest application of the bacteria (alone or in combination with a preharvest application) resulted in the greatest suppression of bitter rot on both cultivars (P < 0.04). The May + June + postharvest application of isolate A3-6 resulted in the greatest suppression of bitter rot, with an average of 45 and 95% reduction in lesion size compared with nontreated controls on ‘Golden Delicious’ and ‘Rome Beauty’ fruit, respectively. Results from this study indicate that preharvest applications of the bacteria were able to reduce foliar and fruit scab and an additional postharvest application was effective in reducing bitter rot severity.

Published

2012

10. Effects of Pre- and Post-Harvest Applications of 6-Furfurylaminopurine and N6-Benzyladenine on Physio-Chemical Changes in Lettuce (Lactuca sativa L.)

Author

El-Mansy, Hussein Ibrahim

Subjects

pre-harvest applications, post-harvest application, 6-Furfurylaminopurine, Physio-Chemical, Lettuce, N6-Benzyladenine, Changes, Food Science

Abstract

The extent and nature of physio-chemical changes that take place in detached leaves after harvest and during storage have been reviewed and discussed by Osborne (1962) and Rogers (1955). These changes include loss of moisture (Wittwer et al., 1962), chlorophyll degredation (Person et al., 1957), Protein loss (Thimann and Manmahan, 1960), and result in subsequent appearance of the visual manifestations of senescence of plant tissues. As lettuce, like most leafy vegetables, deteriorates rapidly and steadily after harvest. Loss of quality is inevitable and can only be minimized by rapid handling and with the best possible storage conditions (Pratt et al., 1954). In recent years, abundant work has been done to delay senescence by the use of various chemicals. Among the investigated chemicals, kinetin (6-furfurylarninopurine) and its related c ompounds show some promise. Van Overbeek et al. (1941) reported a potent new growthpromoting factor (kinetin) in coconut milk. This chemical is active in causing many of the growth reactions of c oconut milk at exceedingly small dosages. Subsequently several arninopurine compounds were synthesized. One of which is SD 4901 (Verdan), N6-benzyladenine, an experimental senescence inhibitor, was developed by Shell Development Company, Modesto, California in 1960. Many reports showed that this chemical is capable of delaying senescence of plant tissues on the basis of restoring protein molecules and respiration inhibition. On the other hand, others have shown stimulation of respiration and delaying of senescence. Paucity of scientific literature on the stability of those chemicals on leafy vegetables gave impetus to a study of the comparative influence of pre- and post-harvest applications of 6-furfurylaminopurine and N6-benzyladenine as related to successive harvest times. Such studies may have considerable economic bearing upon storing and shipping leafy vegetables to distant markets. This thesis presents effects of different concentrations (5, 10, and 20 ppm.) of pre- and post-harvest applications of 6-furfurylaminopurine and N6-benzyladenine as related to three successive harvest times (at one week intervals) on chlorophyll content, moisture content, total nitrogen, insoluble and soluble nitrogen, oxygen uptake, 0 and co2 production during storage (at 40 Fo and 85 percent RH) of "Great Lakes" variety of lettuce.

Published

1964