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39 Minimally Processed Foods 761Mart ́ın-Belloso O et al. 1997. Inactivation ofEscherichia colisus-
pended in liquid egg using pulsed electric fields.J Food Process
Eng20: 317–336.
Mason T et al. 2005. Aplications of ultrasound. In: DW Sun (ed.)
Emerging Technologies for Food Processing. Elsevier Academic
Press, London, Chap. 13, pp. 323–351.
Mertens B. 1995. Hydrostatic pressure treatment of foods: equip-
ment and processing. In: GW Gould (ed.)New Methods of Food
Preservation. Blackie Academic and Professional, New York, p.
135.
Metaxas AC, Meredith RJ. 1993.Industrial Microwave Heating.
Peter Peregrinus, London.
Mittal GS. 2009. Non-thermal food processing with pulsed electric
field technology.Resou: Eng Technol Sustain World16(2): 6–8.
Morris C et al. 2007. Non-thermal food processing/preservation
technologies: a review with packaging implications.Packag Tech-
nol Sci20: 275–286.
Mosqueda-Melgar J et al. 2007. Influence of treatment time and
pulse frequency onSalmonella enteritidis,Escherichia coliand
Listeria monocytogenespopulations inoculated in melon and wa-
termelon juices treated by pulsed electric fields.Int J Food Mi-
crobiol117(2): 192–200.
Mousa N, Farid M. 2002. Microwave vacuum drying of banana
slices.Drying Technol20(10): 2055–2066.
Moyer JC, Stotz E. 1947. The blanching of vegetables by electron-
ics.Biosyst Eng1: 252–257.
Mulet A et al. 2010. Ultrasound-assisted hot air drying of foods.
In: H Feng, G Barbosa-Canovas, J Weiss (eds.)Ultrasound Tech-
nologies for Food and Bioprocessing Series: Food Engineering
Series. Springer, New York.
Mulet A et al. 2003. New food drying technologies—use of ultra-
sound.Food Sci Technol Int9(3): 215–218.
Nawirska A et al. 2009. Drying kinetics and quality parameters of
pumpkin slices dehydrated using different methods.J Food Eng
94(1): 14–20.
Nelson SO, Trabelsi S. 2009. Dielectric properties of agricul-
tural products and applications. American Society of Agricul-
tural and Biological Engineers Annual International Meeting 5,
pp. 2901–2919.
Ngadi M, Bazhal M. 2004. Emerging food processing technolo-
gies: food quality and safety. In: F Shahidi, BK Simpson (eds.)
Seafood Quality and Safety: Advances in the New Millennium.
ScienceTech Publishing, St. John’s, NL.
Ngadi M, Dehghannya J. 2010. Modeling microbial inactivation
by a pulsed electric field. In: MF Mohammed (ed.)Mathemati-
cal Modeling of Food Processing. CRC Press, Boca Raton, FL,
pp. 559–573. DOI: 10.1201/9781420053548-c20.
Ngadi M et al. 2003. Kinetics of ultraviolet light inactivation ofEs-
cherichia coliO157:H7 in liquid foods.J Sci Food Agric83(15):
1551–1555.
Ngadi MO et al. 2010. Food quality and safety issues during pulsed
electric field processing. In: E Ortega-Rivas (ed.)Processing Ef-
fects on Safety and Quality of Foods. CRC Press, Boca Raton,
FL, pp. 441–479. DOI: 10.1201/9781420061154-c16.
Niemira BA, Fan X. 2009. Irradiation enhances quality and
microbial safety of fresh and fresh-cut fruits and vegeta-
bles. In: E Feeherry, RB Gravani (eds.) Microbial Safety
of Fresh Produce. Wiley-Blackwell, Oxford, UK. Doi:
10.1002/9781444319347.ch10.Nyati H. 2000. An evaluation of the effect of storage and processing
temperatures on the microbiological status of sous vide extended
shelf-life products.Food Control11: 471–476.
Odriozola-Serrano I et al. 2008. Phenolic acids, flavonoids, vitamin
C and antioxidant capacity of strawberry juices processed by
high-intensity pulsed electric fields or heat treatments.Eur Food
Res Technol228(2): 239–248.
Odriozola-Serrano I et al. 2009. Carotenoid and phenolic profile of
tomato juices processed by high intensity pulsed electric fields
compared with conventional thermal treatments.Food Chem
112(1): 258–266.
Ohlsson T, Bengtsson N. 2002. The hurdle concept. InMinimal
Processing Technologies in the Food Industry. CRC Press, New
York, Chapter 7 pp. 175–195.
Ohshima T et al. 2002. Effect of culture temperature on high-voltage
pulse sterilization ofEscherichia coli.J Electrostatics55(3–4):
227–235.
Oms-Oliu G et al. 2009. Effects of high-intensity pulsed electric
field processing conditions on lycopene, vitamin C and antiox-
idant capacity of watermelon juice.Food Chem115(4): 1312–
1319.
Orsat V et al. 2006. Microwave drying of fruits and vegetables.
Stewart Postharv Rev2(6): 1–7.
Orsat V et al. 2007. Microwave-assisted drying of biomaterials.
Food Bioprod Process85(3C): 255–263.
Ozer NP, Demirci A. 2006. Inactivation ofEscherichia coli
O157:H7 andListeria monocytogenesinoculated on raw salmon
fillets by pulsed-UV light treatment.Int J Food Sci Technol41(4):
354–360.
Ozkan I.A et al. 2007. Microwave drying characteristics of spinach.
J Food Eng78(2): 577–583.
Patterson MF, Loaharanu P. 2000. Irradiation. In: BM Lund, TC
Baird-Parker, GW Gould (eds.)The Microbiological Safety and
Quality of Food,Vols. 1–2. Aspen Publishers, Springer–Verlag,
Gaithersburg, Chapter 4, pp. 65–100.
Peck MW, Stringer SC. 2005. The safety of pasteurised in-pack
chilled meat products with respect to the foodborne botulism
hazard.Meat Sci70: 461–475.
Pereira NR et al. 2007. Effect of microwave power, air velocity
and temperature on the final drying of osmotically dehydrated
bananas.J Food Eng81(1): 79–87.
Perkins-Veazie P et al. 2008. Blueberry fruit response to postharvest
application of ultraviolet radiation.Postharv Biol Technol47(3):
280–285.
Pombo MA et al. 2009. UV-C irradiation delays strawberry fruit
softening and modifies the expression of genes involved in cell
wall degradation.Postharvest Biol Technol51(2): 141–148.
Ponce E et al. 1998. Combined effect of nisin and high hydrostatic
pressure on destruction ofListeria innocuaandEscherichia coli
in liquid whole egg.Int J Food Microbiol43(1–2): 15–19.
Qin B et al. 1995. Nonthermal inactivation ofS. cerevisiaein ap-
ple juice using pulsed electric fields.LWT Food Sci Technol28:
564–568.
Ramaswamy H, Tang J. 2008. Microwave and radio frequency heat-
ing.Food Sci Technol Int14: 423–427.
Ramaswamy HS et al. 2002. Enhanced thermal effects under mi-
crowave heating conditions. In: J Welti-Chanes, G Barbosa-
Canovas, JM Aguilera (eds.)Engineering and Food for the 21st
Century. CRC Press, Boca Raton, FL, pp. 739–762.