Strawberries are a highly perishable crop with postharvest losses than reach up to 40%. Cost-effective and sustainable technologies in the form of active packing films can provide a solution. Antimicrobial packaging films were produced from pullulan polymer and Solid Lipid Nanoparticles (SLN) containing 1% w/w cinnamaldehyde. Strawberries were stored at 3 °C for 10 days and 12 °C for 6 days. Microbial and physical quality parameters were evaluated during storage. A reduction of approximately 2 Log CFU/g in yeast and mold population was observed for treated strawberries stored at 3 °C as compared to the control (p < 0.05). Yeast and molds counts were significantly lower on day 2 and 4 at 12 °C for treated samples. Strawberries packaged with the active films demonstrated lower respiration rates and the retention of bright red color at both storage temperatures. Active pullulan films were effective in maintaining the desired strawberry quality and reducing fungal decay during refrigerated storage.
The consumer demand for locally grown fresh produce is continuously increasing in the United States. The high tunnel systems have been successfully utilized by small acreage growers for local production. Consumers are typically assessing appearance, freshness, flavor and aroma when purchasing produce. A common perception is that locally grown produce tastes better than nonlocal. However, there is not much evidence for supporting this claim. The objective of this study was to identify consumer acceptability and the sensory characteristics/differences of locally grown spinach in open field or in high tunnel and nonlocal commercially grown spinach. Spinach, Spinacia oleracea cv. “Corvair” was grown in open field and in high tunnel at Kansas State Univ. Olathe Horticulture Research and Extension Center (OHREC) in spring 2017 and the commercially grown spinach was purchased at a local retail store. A consumer study (n = 205) was conducted at Kansas State Univ., Olathe campus, and a descriptive sensory analysis was conducted by a highly trained descriptive analysis panel in the Center for Sensory Analysis and Consumer Behavior at Kansas State Univ., Manhattan campus, in spring 2017. The consumer test showed that high tunnel spinach scored significantly higher in overall liking (P < 0.0001), flavor liking (P < 0.0001), and texture liking (P < 0.05) when compared to open field and store purchased spinach. Descriptive analysis showed that locally grown spinach had higher intensity of attributes that indicate premium quality, such as green color and green/spinach flavors. Our results indicate that locally grown spinach was preferred from the consumers for its high organoleptic quality. Practical Application Locally grown spinach demonstrated high intensity in a set of sensory attributes that suggest a product with premium organoleptic quality. Correspondingly to these results, consumers liked spinach produced locally in high tunnels the most. The results of this study can be used for developing marketing strategies that are aiming specifically to the consumer niche that is seeking fresh produce of high organoleptic quality.
Fresh produce constitutes 44% by weight of the global food losses and waste. Postharvest losses of fresh produce are closely related to the preharvest field conditions during growth. In the Central US, many small acreage vegetable growers are utilizing high tunnels, which have been successful in increasing the yield of several crops. Little is known about the effect of this production system on the postharvest losses. This study tested the hypothesis that the production system will affect the postharvest losses of organic spinach (Spinacia oleracea, "Corvair") when stored at 3 or 13 °C. Comparative open field and high tunnel trials were conducted from 2015 to 2017. Postharvest losses were evaluated with regard to the spinach quality characteristics and shelf life. During storage at 3 °C, there were no major quality differences between the spinach grown in the two production systems. During storage at 13 °C, in both years, spinach grown in the high tunnels had 1.2 to 2.3% higher water content than spinach grown in the open field. In the second year, high tunnel spinach stored at 13 °C had a lower respiration rate (P < 0.05) and a slower rate of yellowing as indicated by higher chlorophyll content (P < 0.001), significantly lower lightness values, and significantly higher hue values than open field spinach. The high tunnel spinach demonstrated longer shelf life in year 1 and higher quality towards the end of storage in year two when compared to open field spinach when stored at 13 °C. This is the first study to examine the effect of the high tunnel production system on the postharvest quality and losses of spinach. Our results indicate that high tunnels can reduce the postharvest food losses of spinach when stored at 13 °C, due to increased water content and decreased senescence rate.
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