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Domizia Donnini - One of the best experts on this subject based on the ideXlab platform.

  • mycorrhization of Pecans with european truffles tuber spp tuberaceae under southern subtropical conditions
    Applied Soil Ecology, 2021
    Co-Authors: Joice Aline Freiberg, Domizia Donnini, Giorgio Marozzi, Marcelo A Sulzbacher, Tine Grebenc, Natielo Almeida Santana, Igor Sulzbacher Schardong, Diniz Fronza, Admir Jose Giachini, Rodrigo Josemar Seminoti Jacques
    Abstract:

    Abstract Pecan trees are known to form ectomycorrhizae with a wide range of fungi, including commercial truffles that can be cultivated in agroforestry systems. Here, we investigated whether Pecans can be successfully mycorrhized by Tuber spp. and whether the mycorrhization affects growth parameters and nutrient content of two productive pecan cultivars under southern subtropical conditions. We also sought to define procedures of mycorrhization adapted to the subtropics. The seedlings of two pecan cultivars (Barton and Importada) were inoculated with both Tuber aestivum and T. brumale and grown in a nursery for 12 months. The levels of ectomycorrhizal colonization and the morphological and chemical parameters of the seedlings were analyzed. The proposed mycorrhization protocol was successful, as all truffle-inoculated seedlings exhibited a high percentage of mycorrhized fine roots, on average 70% with T. aestivum and 88% with T. brumale. In both pecan cultivars, mycorrhization by the Tuber species reached levels at which all seedlings would qualify as suitable for commercialization. Notably, the cultivar Barton inoculated with T. brumale exhibited higher total biomass accumulation and growth of roots and shoots. Shoot and root parameters did not show nutrient deprivation. The nutrient status after one year of cultivation in a nursery also supported that the applied protocol was adequate to maintain healthy mycorrhized seedlings with suitable nutritional status for out-planting of seedlings in a commercial plantation. To our knowledge, this is the first study on the mycorrhization of pecan seedlings with European truffles under southern subtropical conditions. Our results suggested that the tested cultivars have a high potential for truffle production considering the necessary substrate, site, and management adaptations for selected commercial truffle species and the requirements for pecan orchards.

  • mycorrhization of pecan carya illinoinensis with black truffles tuber melanosporum and tuber brumale
    Mycorrhiza, 2017
    Co-Authors: Giorgio Marozzi, Gian Maria Niccolò Benucci, Gregory Bonito, Leonardo Baciarelli Falini, Sergio Sanchez, Emidio Albertini, Domizia Donnini
    Abstract:

    Pecan, Carya illinoinensis, is an economically important nut producing tree that can establish ectomycorrhizal symbiosis with a high diversity of fungi. In the southern USA, truffles (Tuber spp.) sometimes fruit prolifically in cultivated pecan orchards and regularly associate with pecan roots as ectomycorrhizae (ECMs). It has been demonstrated that some valuable European truffle species (e.g., Tuber borchii and Tuber aestivum) can form ECMs with pecan seedlings in nursery conditions. Thus, pecan may represent an attractive alternative host to forest trees for truffle growers given the potential for co-cropping truffles and Pecans. To further explore the capacity of pecan to host truffle symbionts, pecan seedlings were inoculated with species of black truffles that are economically important in Europe, T. melanosporum and T. brumale. Ectomycorrhizae were characterized molecularly and their morphology was described in detail. Mycorrhization rates on pecan roots were assessed over a 2-year period. Tuber melanosporum and T. brumale produced well-formed ECMs with a level of root colonization in the first year of 37.3 and 34.5%, respectively. After 24 months, the level of mycorrhization increased for T. brumale (49.4%) and decreased for T. melanosporum (10.5%) inversely to that of non-target ECM greenhouse contaminants (e.g., Sphaerosporella brunnea, Trichophaea woolhopeia, Pulvinula constellatio). To assess whether mating types segregated in T. melanosporum as been reported for other host species, we amplified the mating-type locus from single T. melanosporum ECM belonging to different seedlings over a 2-year period. The two mating idiomorphs were nearly equally represented along the 2-year time span: MAT 1-1-1 decreased from 59.4% in the first year to 48.5% in the second year after inoculation. Data reported in this study add to knowledge on the mycorrhization of pecan trees with commercial truffles and has application to truffle and nut co-cropping systems.

  • mycorrhization of pecan carya illinoinensis with black truffles tuber melanosporum and tuber brumale
    Mycorrhiza, 2017
    Co-Authors: Giorgio Marozzi, Gian Maria Niccolò Benucci, Gregory Bonito, Leonardo Baciarelli Falini, Sergio Sanchez, Emidio Albertini, Domizia Donnini
    Abstract:

    Pecan, Carya illinoinensis, is an economically important nut producing tree that can establish ectomycorrhizal symbiosis with a high diversity of fungi. In the southern USA, truffles (Tuber spp.) sometimes fruit prolifically in cultivated pecan orchards and regularly associate with pecan roots as ectomycorrhizae (ECMs). It has been demonstrated that some valuable European truffle species (e.g., Tuber borchii and Tuber aestivum) can form ECMs with pecan seedlings in nursery conditions. Thus, pecan may represent an attractive alternative host to forest trees for truffle growers given the potential for co-cropping truffles and Pecans. To further explore the capacity of pecan to host truffle symbionts, pecan seedlings were inoculated with species of black truffles that are economically important in Europe, T. melanosporum and T. brumale. Ectomycorrhizae were characterized molecularly and their morphology was described in detail. Mycorrhization rates on pecan roots were assessed over a 2-year period. Tuber melanosporum and T. brumale produced well-formed ECMs with a level of root colonization in the first year of 37.3 and 34.5%, respectively. After 24 months, the level of mycorrhization increased for T. brumale (49.4%) and decreased for T. melanosporum (10.5%) inversely to that of non-target ECM greenhouse contaminants (e.g., Sphaerosporella brunnea, Trichophaea woolhopeia, Pulvinula constellatio). To assess whether mating types segregated in T. melanosporum as been reported for other host species, we amplified the mating-type locus from single T. melanosporum ECM belonging to different seedlings over a 2-year period. The two mating idiomorphs were nearly equally represented along the 2-year time span: MAT 1-1-1 decreased from 59.4% in the first year to 48.5% in the second year after inoculation. Data reported in this study add to knowledge on the mycorrhization of pecan trees with commercial truffles and has application to truffle and nut co-cropping systems.

Achyut Adhikari - One of the best experts on this subject based on the ideXlab platform.

  • effect of pecan variety and the method of extraction on the antimicrobial activity of pecan shell extracts against different foodborne pathogens and their efficacy on food matrices
    Food Control, 2020
    Co-Authors: Veerachandra K Yemmireddy, Cameron Cason, Juan Moreira, Achyut Adhikari
    Abstract:

    Abstract The shells of Pecans are a rich source of bioactive compounds with potential inhibitory activity against various pathogenic microorganisms. This study investigated the antimicrobial activity of pecan shell extracts as effected by the type of cultivar and the method of extraction against various foodborne bacterial pathogens. Defatted shell powders of 19 different pecan cultivars were subjected to aqueous and ethanolic extraction (1:20 w/v) procedures, respectively. The minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of lyophilized pecan shell extracts dissolved in deionized water containing 5% DMSO (v/v) were determined against multiple strains of Listeria monocytogenes, Salmonella enterica, and Escherichia coli O157:H7. The antimicrobial activity of pecan shell extracts was found to be pathogen specific and strain dependent. Overall, L. monocytogenes was found to be least resistant to treatment with pecan shell extracts with an MIC and/or MBC values ranging from 1.25 to 5 mg/mL followed by Salmonella enterica (2.5 to ≥5 mg/mL) and E. coli O157:H7 (≥5 mg/mL). Type of cultivar and the method of extraction found to have a variable effect on the antimicrobial activity. Furthermore, the challenge studies on fresh-cut cantaloupes and thawed catfish fillets treated with 5 mg/mL pecan shell extracts and stored at 4 °C for up to 5 days showed a

  • effect of hot water treatment of in shell Pecans on physicochemical properties and consumer acceptability of roasted pecan kernels
    International Journal of Food Science and Technology, 2019
    Co-Authors: Karuna Kharel, Veerachandra K Yemmireddy, Charles J Graham, Witoon Prinyawiwatkul, Achyut Adhikari
    Abstract:

    The effect of hot water pre‐treatment of in‐shell Pecans on physicochemical properties, consumer acceptance and purchase intent of dehulled and roasted kernels was evaluated. In‐shell Pecans were first subjected to hot water at 70, 80 and 90 °C for 8.6, 6.6 and 4.6 min respectively and kernels were later dry roasted at 160 °C for 10 min. The physicochemical properties of hot water treated and untreated nuts, before and after roasting were determined. Furthermore, consumer acceptance and purchase intent of the roasted kernels were determined. Hot water treatment, alone and subsequent roasting had minimal effect on Pecans’ physicochemical properties. Consumers liked (P   0.05) of pre‐treatment was observed on the acceptability of other sensory attributes. Safety claim increased treated Pecans’ overall liking; however, it decreased purchase intent. Hot water treatment showed promise as a post‐harvest microbial intervention strategy without affecting the physicochemical properties and consumer acceptability.

  • hot water treatment as a kill step to inactivate escherichia coli o157 h7 salmonella enterica listeria monocytogenes and enterococcus faecium on in shell Pecans
    Lwt - Food Science and Technology, 2018
    Co-Authors: Karuna Kharel, Veerachandra K Yemmireddy, Charles J Graham, Witoon Prinyawiwatkul, Achyut Adhikari
    Abstract:

    Abstract In-shell Pecans are susceptible to microbial contamination. This study was performed to investigate feasibility of using hot water treatment as a kill-step for food-borne pathogens during pecan shelling. In-shell Pecans were subjected to hot water at 70, 80 or 90 °C for 1, 2, 3, 4 or 5 min. The time-temperature treatments to achieve a 5-log reduction of Salmonella enterica, Escherichia coli O157:H7, Listeria monocytogenes, and non-pathogenic Enterococcus faecium were determined. Thermal death values were determined for each tested condition. L. monocytogenes was most susceptible to heat treatment and were reduced by 4.6 ± 0.35 log CFU/g at 70 °C for 5 min, while 3–5 min at 80 and 90 °C treatments was required to achieve a similar reduction level for S. enterica, E. coli O157:H7, and E. faecium. S. enterica were most resistant and required 4 min treatment time to achieve a 5-log reduction at 80 and 90 °C. The D-values ranged from 1.15 to 1.72, 0.83 to 1.19, and 0.41–0.92 min at 70, 80 and 90 °C, respectively. E. faecium had the highest D-value (1.72 min at 70 °C), indicating a potential surrogate for process validation for pecan industries. Utilizing proper hot water treatment during pecan shelling could reduce food safety risk.

Giorgio Marozzi - One of the best experts on this subject based on the ideXlab platform.

  • mycorrhization of Pecans with european truffles tuber spp tuberaceae under southern subtropical conditions
    Applied Soil Ecology, 2021
    Co-Authors: Joice Aline Freiberg, Domizia Donnini, Giorgio Marozzi, Marcelo A Sulzbacher, Tine Grebenc, Natielo Almeida Santana, Igor Sulzbacher Schardong, Diniz Fronza, Admir Jose Giachini, Rodrigo Josemar Seminoti Jacques
    Abstract:

    Abstract Pecan trees are known to form ectomycorrhizae with a wide range of fungi, including commercial truffles that can be cultivated in agroforestry systems. Here, we investigated whether Pecans can be successfully mycorrhized by Tuber spp. and whether the mycorrhization affects growth parameters and nutrient content of two productive pecan cultivars under southern subtropical conditions. We also sought to define procedures of mycorrhization adapted to the subtropics. The seedlings of two pecan cultivars (Barton and Importada) were inoculated with both Tuber aestivum and T. brumale and grown in a nursery for 12 months. The levels of ectomycorrhizal colonization and the morphological and chemical parameters of the seedlings were analyzed. The proposed mycorrhization protocol was successful, as all truffle-inoculated seedlings exhibited a high percentage of mycorrhized fine roots, on average 70% with T. aestivum and 88% with T. brumale. In both pecan cultivars, mycorrhization by the Tuber species reached levels at which all seedlings would qualify as suitable for commercialization. Notably, the cultivar Barton inoculated with T. brumale exhibited higher total biomass accumulation and growth of roots and shoots. Shoot and root parameters did not show nutrient deprivation. The nutrient status after one year of cultivation in a nursery also supported that the applied protocol was adequate to maintain healthy mycorrhized seedlings with suitable nutritional status for out-planting of seedlings in a commercial plantation. To our knowledge, this is the first study on the mycorrhization of pecan seedlings with European truffles under southern subtropical conditions. Our results suggested that the tested cultivars have a high potential for truffle production considering the necessary substrate, site, and management adaptations for selected commercial truffle species and the requirements for pecan orchards.

  • mycorrhization of pecan carya illinoinensis with black truffles tuber melanosporum and tuber brumale
    Mycorrhiza, 2017
    Co-Authors: Giorgio Marozzi, Gian Maria Niccolò Benucci, Gregory Bonito, Leonardo Baciarelli Falini, Sergio Sanchez, Emidio Albertini, Domizia Donnini
    Abstract:

    Pecan, Carya illinoinensis, is an economically important nut producing tree that can establish ectomycorrhizal symbiosis with a high diversity of fungi. In the southern USA, truffles (Tuber spp.) sometimes fruit prolifically in cultivated pecan orchards and regularly associate with pecan roots as ectomycorrhizae (ECMs). It has been demonstrated that some valuable European truffle species (e.g., Tuber borchii and Tuber aestivum) can form ECMs with pecan seedlings in nursery conditions. Thus, pecan may represent an attractive alternative host to forest trees for truffle growers given the potential for co-cropping truffles and Pecans. To further explore the capacity of pecan to host truffle symbionts, pecan seedlings were inoculated with species of black truffles that are economically important in Europe, T. melanosporum and T. brumale. Ectomycorrhizae were characterized molecularly and their morphology was described in detail. Mycorrhization rates on pecan roots were assessed over a 2-year period. Tuber melanosporum and T. brumale produced well-formed ECMs with a level of root colonization in the first year of 37.3 and 34.5%, respectively. After 24 months, the level of mycorrhization increased for T. brumale (49.4%) and decreased for T. melanosporum (10.5%) inversely to that of non-target ECM greenhouse contaminants (e.g., Sphaerosporella brunnea, Trichophaea woolhopeia, Pulvinula constellatio). To assess whether mating types segregated in T. melanosporum as been reported for other host species, we amplified the mating-type locus from single T. melanosporum ECM belonging to different seedlings over a 2-year period. The two mating idiomorphs were nearly equally represented along the 2-year time span: MAT 1-1-1 decreased from 59.4% in the first year to 48.5% in the second year after inoculation. Data reported in this study add to knowledge on the mycorrhization of pecan trees with commercial truffles and has application to truffle and nut co-cropping systems.

  • mycorrhization of pecan carya illinoinensis with black truffles tuber melanosporum and tuber brumale
    Mycorrhiza, 2017
    Co-Authors: Giorgio Marozzi, Gian Maria Niccolò Benucci, Gregory Bonito, Leonardo Baciarelli Falini, Sergio Sanchez, Emidio Albertini, Domizia Donnini
    Abstract:

    Pecan, Carya illinoinensis, is an economically important nut producing tree that can establish ectomycorrhizal symbiosis with a high diversity of fungi. In the southern USA, truffles (Tuber spp.) sometimes fruit prolifically in cultivated pecan orchards and regularly associate with pecan roots as ectomycorrhizae (ECMs). It has been demonstrated that some valuable European truffle species (e.g., Tuber borchii and Tuber aestivum) can form ECMs with pecan seedlings in nursery conditions. Thus, pecan may represent an attractive alternative host to forest trees for truffle growers given the potential for co-cropping truffles and Pecans. To further explore the capacity of pecan to host truffle symbionts, pecan seedlings were inoculated with species of black truffles that are economically important in Europe, T. melanosporum and T. brumale. Ectomycorrhizae were characterized molecularly and their morphology was described in detail. Mycorrhization rates on pecan roots were assessed over a 2-year period. Tuber melanosporum and T. brumale produced well-formed ECMs with a level of root colonization in the first year of 37.3 and 34.5%, respectively. After 24 months, the level of mycorrhization increased for T. brumale (49.4%) and decreased for T. melanosporum (10.5%) inversely to that of non-target ECM greenhouse contaminants (e.g., Sphaerosporella brunnea, Trichophaea woolhopeia, Pulvinula constellatio). To assess whether mating types segregated in T. melanosporum as been reported for other host species, we amplified the mating-type locus from single T. melanosporum ECM belonging to different seedlings over a 2-year period. The two mating idiomorphs were nearly equally represented along the 2-year time span: MAT 1-1-1 decreased from 59.4% in the first year to 48.5% in the second year after inoculation. Data reported in this study add to knowledge on the mycorrhization of pecan trees with commercial truffles and has application to truffle and nut co-cropping systems.

Michelle D Danyluk - One of the best experts on this subject based on the ideXlab platform.

  • validation of enterococcus faecium as a surrogate for salmonella under different processing conditions for peanuts and Pecans
    Food Microbiology, 2019
    Co-Authors: Pardeepinder K Brar, Michelle D Danyluk
    Abstract:

    Abstract Food Safety and Modernization Act (FSMA) Preventive Control rules require nut processors validate thermal processes to ensure a desirable log reduction of Salmonella is achieved. Due to the complex nature of nut and nut products, processes and equipment, it is difficult to use one validation study for all and may requires individual equipment be validated at the plant level. In plant validation studies, pathogens such as Salmonella cannot be used due to the risk of contamination, thus the suitability of a non-pathogenic organism, Enterococcus faecium as a surrogate for Salmonella was evaluated for peanut and pecan thermal processing. Stagnant and forced dry air heating conditions, (120 °C (20, 30, 40 min), 130 °C (10, 20, 30 min), 140 °C (10, 20, 30 min)) were evaluated for unblanched peanut kernels. Oil heating conditions (116 °C, 121 °C, and 127 °C for 0.5, 1.0, 1.5, 2.0, 2.5 min) were evaluated for pecan kernels. Inshell Pecans are conditioned in hot or cold water to facilitate the shelling process. Water heating conditions (75 °C (20, 40, 80, 120 s), 80 °C (20, 40, 80, 120 s), 85 °C (20, 40, 80, 120 s), 90 °C (20, 40, 60, 80 s), and 95 °C (20, 40, 60, 80 s)) were evaluated for inshell Pecans. Under conditions, except forced air treatment, E. faecium reductions (Log N/N0) were either not significantly different (P > 0.05) or significantly lower than Salmonella (P

  • prevalence level and types of salmonella isolated from north american in shell Pecans over four harvest years
    Journal of Food Protection, 2016
    Co-Authors: Pardeepinder K Brar, Laura K Strawn, Michelle D Danyluk
    Abstract:

    ABSTRACT In-shell pecan samples (500 g) were collected over four harvest seasons (2010 to 2014) from seven pecan shelling facilities located in five U.S. states. Four varieties of Pecans were analyzed: Mexican Improved, Native Seedlings, Southern Improved, and Western Improved. Pecan samples (100 g) were sent to a third party laboratory for initial Salmonella screening. When a sample was positive for Salmonella, the pathogen level was determined by the most-probable-number (MPN) method (25, 2.5, and 0.25 g). Two sample preparation strategies were used for the MPN analysis, and both strategies were combined for the reported MPN values. Forty-four (0.95%) of 4,641 in-shell pecan samples were positive for Salmonella during initial screening; prevalence by year was 0.47 to 1.4%. Prevalence was not significantly different between varieties: Mexican Improved, 1.2%; Native/Seedling, 0.99%; Southern Improved, 0.97%; and Western Improved, 0.75%. Salmonella was not isolated from 31 of 44 samples upon retesting duri...

  • survival of salmonella escherichia coli o157 h7 and listeria monocytogenes on raw peanut and pecan kernels stored at 24 4 and 22 c
    Journal of Food Protection, 2015
    Co-Authors: Pardeepinder K Brar, Lisseth Proano, Loretta M Friedrich, Linda J Harris, Michelle D Danyluk
    Abstract:

    Cocktails of lawn-collected cells were used to determine the survival of Salmonella, Escherichia coli O157:H7, and Listeria monocytogenes on the surface of raw peanut and pecan kernels. Kernels were inoculated with mixtures of four to five strains at 3 or 6 log CFU/g, dried at room temperature, and then stored at −24 ± 1, 4 ± 2, and 22 ± 1°C for 28 or 365 days. In most cases, rates of decline of the pathogens did not differ significantly between the two inoculum concentrations in the 28-day study. At 6 log CFU/g, populations of all pathogens were reduced by 0.5 to 1.6 log CFU/g during an initial 3-day drying period on both peanuts and Pecans. The moisture content of peanuts and Pecans remained stable at −24 ± 1 and 22 ± 1°C; at 4 ± 2°C, the moisture content increased from 3.8 to 5.6% on peanuts and from 2.6 to 3% on Pecans over 365 days. Pathogen populations were stable on Pecans stored under frozen and refrigerated conditions, except for L. monocytogenes, which declined at a rate of 0.03 log CFU/g/30 day...

Veerachandra K Yemmireddy - One of the best experts on this subject based on the ideXlab platform.

  • effect of pecan variety and the method of extraction on the antimicrobial activity of pecan shell extracts against different foodborne pathogens and their efficacy on food matrices
    Food Control, 2020
    Co-Authors: Veerachandra K Yemmireddy, Cameron Cason, Juan Moreira, Achyut Adhikari
    Abstract:

    Abstract The shells of Pecans are a rich source of bioactive compounds with potential inhibitory activity against various pathogenic microorganisms. This study investigated the antimicrobial activity of pecan shell extracts as effected by the type of cultivar and the method of extraction against various foodborne bacterial pathogens. Defatted shell powders of 19 different pecan cultivars were subjected to aqueous and ethanolic extraction (1:20 w/v) procedures, respectively. The minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of lyophilized pecan shell extracts dissolved in deionized water containing 5% DMSO (v/v) were determined against multiple strains of Listeria monocytogenes, Salmonella enterica, and Escherichia coli O157:H7. The antimicrobial activity of pecan shell extracts was found to be pathogen specific and strain dependent. Overall, L. monocytogenes was found to be least resistant to treatment with pecan shell extracts with an MIC and/or MBC values ranging from 1.25 to 5 mg/mL followed by Salmonella enterica (2.5 to ≥5 mg/mL) and E. coli O157:H7 (≥5 mg/mL). Type of cultivar and the method of extraction found to have a variable effect on the antimicrobial activity. Furthermore, the challenge studies on fresh-cut cantaloupes and thawed catfish fillets treated with 5 mg/mL pecan shell extracts and stored at 4 °C for up to 5 days showed a

  • effect of hot water treatment of in shell Pecans on physicochemical properties and consumer acceptability of roasted pecan kernels
    International Journal of Food Science and Technology, 2019
    Co-Authors: Karuna Kharel, Veerachandra K Yemmireddy, Charles J Graham, Witoon Prinyawiwatkul, Achyut Adhikari
    Abstract:

    The effect of hot water pre‐treatment of in‐shell Pecans on physicochemical properties, consumer acceptance and purchase intent of dehulled and roasted kernels was evaluated. In‐shell Pecans were first subjected to hot water at 70, 80 and 90 °C for 8.6, 6.6 and 4.6 min respectively and kernels were later dry roasted at 160 °C for 10 min. The physicochemical properties of hot water treated and untreated nuts, before and after roasting were determined. Furthermore, consumer acceptance and purchase intent of the roasted kernels were determined. Hot water treatment, alone and subsequent roasting had minimal effect on Pecans’ physicochemical properties. Consumers liked (P   0.05) of pre‐treatment was observed on the acceptability of other sensory attributes. Safety claim increased treated Pecans’ overall liking; however, it decreased purchase intent. Hot water treatment showed promise as a post‐harvest microbial intervention strategy without affecting the physicochemical properties and consumer acceptability.

  • hot water treatment as a kill step to inactivate escherichia coli o157 h7 salmonella enterica listeria monocytogenes and enterococcus faecium on in shell Pecans
    Lwt - Food Science and Technology, 2018
    Co-Authors: Karuna Kharel, Veerachandra K Yemmireddy, Charles J Graham, Witoon Prinyawiwatkul, Achyut Adhikari
    Abstract:

    Abstract In-shell Pecans are susceptible to microbial contamination. This study was performed to investigate feasibility of using hot water treatment as a kill-step for food-borne pathogens during pecan shelling. In-shell Pecans were subjected to hot water at 70, 80 or 90 °C for 1, 2, 3, 4 or 5 min. The time-temperature treatments to achieve a 5-log reduction of Salmonella enterica, Escherichia coli O157:H7, Listeria monocytogenes, and non-pathogenic Enterococcus faecium were determined. Thermal death values were determined for each tested condition. L. monocytogenes was most susceptible to heat treatment and were reduced by 4.6 ± 0.35 log CFU/g at 70 °C for 5 min, while 3–5 min at 80 and 90 °C treatments was required to achieve a similar reduction level for S. enterica, E. coli O157:H7, and E. faecium. S. enterica were most resistant and required 4 min treatment time to achieve a 5-log reduction at 80 and 90 °C. The D-values ranged from 1.15 to 1.72, 0.83 to 1.19, and 0.41–0.92 min at 70, 80 and 90 °C, respectively. E. faecium had the highest D-value (1.72 min at 70 °C), indicating a potential surrogate for process validation for pecan industries. Utilizing proper hot water treatment during pecan shelling could reduce food safety risk.

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