**3. Recent Innovations in Post-Harvest Preservation and Protection of Agricultural Products: Summarized Articles by Area**

	- (1) Determine grain quality and pesticide residue concentrations of maize stored in porous versus hermetic storage bags. Maize stored in air-tight (hermetic) bags were shown to have higher grain quality and lower aflatoxin and pesticide residue concentrations than maize stored in porous woven polypropylene bags. Educating smallholder farmers on the benefits of hermetic storage bags, and promoting adoption of this innovative chemical-free protection technology, should continue to be a priority among supply chain actors to ensure food-safe maize from producers to consumers [1]–Consortium;
	- (2) Apply dynamic controlled atmosphere technologies to reduce incidence of physiological disorders and maintain quality of apples. 'Granny Smith' apples stored under repeated low oxygen stress (RLOS) in combination with ultra-low oxygen (ULO) or controlled atmosphere (CA) conditions, and under dynamic controlled atmosphere (DCA) conditions in combination with chlorophyll fluorescence (CF) treatment had significantly (*p* < 0.05) higher flesh firmness and total soluble

**Citation:** Maier, D.E.; Chikez, H. Recent Innovations in Post-Harvest Preservation and Protection of Agricultural Products. *Agriculture* **2021**, *11*, 1275. https://doi.org/ 10.3390/ agriculture11121275

Received: 3 December 2021 Accepted: 8 December 2021 Published: 15 December 2021

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**Copyright:** © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/).

solids. The post-harvest treatments and storage conditions reduced superficial scald by possibly suppressing the oxidation of volatiles implicated in its development [2]–Consortium;

	- (5) Evaluate a 500 kg portable column dryer with a biomass burner heat source for maize drying. Indicators such as drying rate, drying efficiency, and moisture extraction rate were used to assess technical operations performance. Results showed that maize moisture content was reduced from 22.3% to 13.4% ± 2.6% in 5 h at an average drying rate of 1.81 percentage points per hour with a drying efficiency of 64.7%. Utilization of such low-capacity mobile dryers to provide drying services was found to be economically viable based on net present value analysis resulting in internal rates of return (IRR) above 70%, pay-back periods (PBP) of less than two years, and positive benefit-cost ratios (BCR) greater than 2.5. Affordable access to drying services in maize-growing communities has potential to improve the socio-economic status of smallholder maize farmers in sub-Saharan Africa [5]–Consortium;
	- (6) Analyze the effect of vibration on grape berry drop during vertical transportation and of different packaging materials on grape clusters during robotic placement. Dropping and shattering of grape berries reduces quality during harvest and post-harvest handling. This study developed an objective method to observe and analyze damage and detachment force for cluster fruits during robotic postharvest handling. Higher speeds and acceleration excitations during vertical transportation tests increased hanging force positively (R2 = 0.92) while the force after striking the grape cluster with packaging materials decreased negatively (R2 = 0.97) and the corresponding index of berry deflection increased. High-speed camera images revealed that rigid plastic boxes caused maximum deflection of grape berries, with the highest change in force of 8.6 N after impact. Experimental results showed a negative correlation between hanging force signals and the force after impact of the cluster, with a goodness of fit of R<sup>2</sup> = 0.95 at different speeds [6].
	- (7) Effect of numbers and placement of temperature sensors on aeration cooling of a stored grain mass. Results predicted by a 3D finite element computational model demonstrated that temperature cables in the center or near the edges of the silos were not representative of average temperatures in the grain mass,

resulting in too infrequent or excessive aeration, respectively. Placement of "wireless" sensors at fixed grain depths but randomized horizontally along the diameter resulted in similar average temperatures, while an increase in randomized sensor numbers reduced variability among years of weather data simulated [7]–Consortium;

	- (9) Evaluate the effects of five harvest and post-harvest technologies (harvesting tools, cold stores, plastic crates, fruit fly traps, ground tarps) promoted by the Rockefeller Foundation Yieldwise Initiative (YWI) on post-harvest loss (PHL) incurred at three stages of the mango value chain (harvest, transportation, point of sale) in Kenya. Results indicated that plastic crates used to transport or store mangos and fruit fly traps used to attract and kill fruit flies were statistically significant (*p* < 0.05) in reducing PHL at the point of sale. Interestingly, no statistical evidence of PHL reduction was observed from smallholder farmers using harvesting tools, cold stores, and ground tarps [9]–Consortium;
	- (10) Assess four on-farm maize storage technologies with and without chemical protectant in two locations of the Republic of Benin. The analysis showed that in central and northern Benin hermetic bags and polypropylene bags recorded less storage losses and were more profitable than improved and closed clay earth granaries and unsealed metal silos. Gastight (hermetic) bag storage technology recorded the lowest post-harvest loss in the two locations when grain was initially treated with the chemical protectant 2% pirimiphos-methyl (central 9.42 ± 4.64%, northern 2.69 ± 0.77%) versus without (central 11.71 ± 2.78%, northern 7.71% ± 1.74%). Maize stored in woven polypropylene bags recorded losses due to insect pests with chemical protectant (northern 4.02 ± 1.23%) versus without (northern 9.64 ± 2.73%). Financial analysis indicated that the most profitable storage technologies were hermetic bags without an initial chemical treatment in central Benin, a more humid region, and woven polypropylene bag with an initial chemical protectant treatment in northern Benin, a more arid region [10];
	- (11) Review of mango fruit processing options for small-scale processors in lowincome countries. Processing mango fruit into a number of shelf-stable food products makes the seasonal fruit more broadly available to consumers yearround. Research and food product development have resulted in several unique processed mango products with specific qualities and nutritional attributes in demand by consumers. These include pulp (puree), juice concentrate, ready-todrink juice, nectar, wine, jams, jellies, pickles, smoothies, chutney, canned slices, chips, leathers, and powder. Minimum processing of mango fruit as a fresh-cut product is popular among health-conscious consumers. Mango pulp and powder can be used to enrich or flavor secondary products such as yoghurt, ice cream, beverages, and soft drinks. Byproducts of mango processing, such as peel and kernels, are rich in bioactive compounds including carotenoids, polyphenols, and dietary fibers, can be used in food fortification and manufacture of animal feeds. This adds value to the fruit while reducing food loss and waste [11]–Consortium.
