Potential use of byproducts from cultivation and processing of sweet potatoes

ABSTRACT: The cultivation and processing of sweet potatoes into a variety of products yields both solid and liquid organic waste. Solid waste includes peelings and trimmings from the sweet potato root and sweet potato leaves and vines. Liquid waste results from various processing methods and creates significant amounts of nutrient rich waste water. Sweet potato waste materials contain carbohydrates, proteins, phenolic compounds, macro and micro nutrients, and pigments that have the potential of being extracted or utilized for various downstream processes and products. This review examines many of the different ways that these waste products can be utilized.

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Weed Control by Alachlor and Residues in Sweet Potato (Ipomoea batatas) and Soil

Weed Science ◽

10.1017/s0043174500069587 ◽

1983 ◽

Vol 31 (4) ◽

pp. 567-571 ◽

Cited By ~ 2

Author(s):

Nancy D. Herman ◽

Thomas J. Monaco ◽

T. Jack Sheets

Keyword(s):

North Carolina ◽

Weed Control ◽

Sweet Potato ◽

Ipomoea Batatas ◽

Soil Samples ◽

Potato Root ◽

Sweet Potatoes ◽

Early Season ◽

Herbicide Treatments ◽

Residue Levels

Alachlor [2-chloro-2′,6′-diethyl-N-(methoxymethyl)acetanilide] at 3.4 and 6.7 kg/ha controlled weeds present in sweet potatoes (Ipomoea batatasL. ‘Jewel’, ‘Centennial’, ‘Caromex’) at two locations in North Carolina. Yield was not reduced from slight early season injury observed with the herbicide treatments. Most sweet potato root samples contained less than the detectable limit of 0.05 ppmw of alachlor. At one location, samples of the cultivars Jewel and Centennial that received 6.7 kg/ha contained 0.06 and 0.05 ppmw, respectively. Averaged over locations, residue levels in soil samples from plots treated at 6.7 kg/ha decreased from 1.55 ppmw initially to less than 0.05 ppmw by 16 weeks after application.

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Integrated Efforts for the Valorization of Sweet Potato By-Products within a Circular Economy Concept: Biocomposites for Packaging Applications Close the Loop

Polymers ◽

10.3390/polym13071048 ◽

2021 ◽

Vol 13 (7) ◽

pp. 1048

Author(s):

Micaela Vannini ◽

Paola Marchese ◽

Laura Sisti ◽

Andrea Saccani ◽

Taihua Mu ◽

...

Keyword(s):

Sweet Potato ◽

Circular Economy ◽

Food Packaging ◽

Previous Treatment ◽

Sweet Potatoes ◽

Melt Mixing ◽

Hydrogen Bond Interactions ◽

Potato Waste ◽

Potato Products ◽

By Products

With the aim to fully exploit the by-products obtained after the industrial extraction of starch from sweet potatoes, a cascading approach was developed to extract high-value molecules, such as proteins and pectins, and to valorize the solid fraction, rich in starch and fibrous components. This fraction was used to prepare new biocomposites designed for food packaging applications. The sweet potato residue was added to poly(3-hydroxybutyrate-co-3-hydroxyvalerate) in various amounts up to 40 wt % by melt mixing, without any previous treatment. The composites are semicrystalline materials, characterized by thermal stability up to 260 °C. For the composites containing up to 10 wt % of residue, the tensile strength remains over 30 MPa and the strain stays over 3.2%. A homogeneous dispersion of the sweet potato waste into the bio-polymeric matrix was achieved but, despite the presence of hydrogen bond interactions between the components, a poor interfacial adhesion was detected. Considering the significant percentage of sweet potato waste used, the biocomposites obtained show a low economic and environmental impact, resulting in an interesting bio-alternative to the materials commonly used in the packaging industry. Thus, according to the principles of a circular economy, the preparation of the biocomposites closes the loop of the complete valorization of sweet potato products and by-products.

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Physicochemical characteristics of fiber rich flour from solid waste of purple sweet potato starch processing

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/924/1/012038 ◽

2021 ◽

Vol 924 (1) ◽

pp. 012038

Author(s):

E Julianti ◽

Z Lubis ◽

E Yusraini ◽

Ridwansyah

Keyword(s):

Solid Waste ◽

Sweet Potato ◽

Potato Starch ◽

Liquid Waste ◽

Physicochemical Characteristics ◽

Sodium Metabisulfite ◽

High Concentration ◽

Waste Solid ◽

Sweet Potato Starch ◽

Purple Sweet Potato

Abstract Sweet potato starch processing produces liquid waste and solid waste. Solid waste from sweet potato starch processing contains a high concentration of fiber so that it can be used for making fiber flour, which can be used as material for food fiber fortification in foodstuffs. This study aims to evaluate the characteristics of fiber flour derived from the solid waste of purple-fleshed sweet potato (PFSP) starch processing. Starch processing is carried out using 3 different types of extracting ingredients, namely distilled water, 2000 ppm sodium metabisulfite solution, and 2000 ppm citric acid solution. The results showed that the yield of fiber flour produced was 4.07-5.11%. The resulting fiber flour has soluble and insoluble fiber content between 1.20-1.63 and 13.53-21.91% respectively. The results of this study indicate that fiber-rich flour from the solid residue of PFSP starch processing can be used as a fiber fortification agent in special food products for people with obesity.

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Utilization Of Organic Fertilizer Compost Made From Purple Sweet Potato Waste (Ipomoea Batatas L.) To Increase The Production Of Pakchoy (Brassica Chinensis L.)

AJARCDE | Asian Journal of Applied Research for Community Development and Empowerment ◽

10.29165/ajarcde.v5i3.70 ◽

2021 ◽

Vol 5 (3) ◽

Author(s):

Sheila Dwi Shilviana ◽

Ni Luh Suriani ◽

I Ketut Sundra

Keyword(s):

Plant Height ◽

Sweet Potato ◽

Root Length ◽

Organic Waste ◽

Organic Fertilizer ◽

Dry Weight ◽

Potato Waste ◽

Wet Weight ◽

Number Of Leaves ◽

Purple Sweet Potato

Compost is an organic fertilizer made from recycled organic materials. Fertilizers can be made from organic waste or unused organic waste. Purple sweet potato waste can be reused into compost. The purpose of this study was to examine the effectiveness of purple sweet potato waste compost inoculated with Trichoderma harzianum in increasing the production of pakchoi and to determine the treatment of purple sweet potato waste compost to increase the production of pakchoi. The research method used is the experimental method. The experimental design used was RAK (Randomized Block Design) with 1 factor. The experiment consisted of 4 treatments of purple sweet potato compost 25 (B) g, 50 g (C), 75 g (D), 150 g (E), and 1 control (A), and was repeated 5 times. The data analysis technique used analysis of variance (ANOVA). Parameters observed were the number of leaves, plant height, leaf width, plant wet weight, plant dry weight, and root length. The results showed that the application of purple sweet potato compost affected increasing the growth and production of pakchoi. The right treatment in increasing the growth of pakchoi is treatment 150 g or treatment E. Treatment 150 g (E) can increase the number of leaves (13.13), plant height (16.32 cm), leaf width (4.88 cm), wet weight (16.60 g), dry weight (6.35 g), and root length (15.80 cm).

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Varieties of sweet potato and features of their cultivation technology

Kartofel` i ovoshi ◽

10.25630/pav.2020.65.67.004 ◽

2020 ◽

pp. 18-20

Author(s):

Т.Э. Остонакулов ◽

А.А. Шамсиев

Keyword(s):

Sweet Potato ◽

Sweet Potatoes ◽

Marketable Yield ◽

Early Maturity ◽

Potato Varieties ◽

Cultivation Technology ◽

High Yields ◽

Sprout Formation ◽

Yield Formation

В 2017–2019 годах изучены сортообразцы сладкого картофеля на староорошаемых лугово-сероземных почвах Зарафшанской долины. Цель исследований – комплексная оценка сортообразцов батата в условиях Зарафшанской долины по скороспелости, росту, развитию, интенсивному размножению, формированию урожая, компактности клубней в гнезде, продуктивности, урожайности и лежкости клубней и выделение из них перспективных, а также разработка приемов агротехнологии получения высоких урожаев для данных условий. Почвы опытного участка характеризуются благоприятными агрофизическими и водными свойствами и низким содержанием гумуса, нитратного азота, подвижного фосфора и содержанием обменного калия от низкого до среднего. Сравнивали 18 сортообразцов батата. Выделенные сортообразцы изучали при ширине междурядий 70 и 90 см со схемой 70×25 и 90×20 см по 1, 2 и 3 растения в гнезде. Для получения рассады сортообразцов батата брали по 40 клубней и высаживали 20–22 февраля в пленочной теплице при температуре 15–18 °C, заделывая их на глубину 3–5 см. Влажность почвы поддерживали на уровне 65–70%. Через 7–10 дней после высадки почки начинают прорастать, а через 43–48 дней формируется рассада высотой 12–15 см, готовая для высадки в поле. Высадка рассады, как и других рассадных культур (томата, перца, баклажана) – по схеме 70×20–25 см во второй-третьей декаде апреля. Уход включал в себя междурядную обработку (культивация), прополку, борьбу с сорняками, подкормку, поливы. Уборка урожая – в конце сентября-начале октября с помощью картофелекопателя. В результате исследований выделились сорта по скороспелости, дружности формирования ростков, ускоренному размножению, продуктивности, компактности клубней в гнезде и с высоким товарным урожаем – Сочакинур, Хар-Бей и Япон. Возделывание этих сортообразцов по схеме 70×25 и 90×20 см способствует получению товарного урожая высокого качества не менее 43–48 т/га. In 2017–2019, studies were conducted on the study of varieties of sweet potatoes on old-irrigated meadow-gray-earth soils of the Zarafshan valley. The purpose of the research is a comprehensive assessment of sweet potato varieties in the conditions of the Zarafshan valley in terms of early maturity, growth, development, intensive reproduction, yield formation, compactness of tubers in the nest, productivity, yield and keeping quality of tubers and the selection of promising ones, as well as the development of methods of agricultural technology for obtaining high yields for given conditions. The soil is characterized by favorable agrophysical and water properties and low content of humus, nitrate nitrogen, mobile phosphorus and a low-average content of exchange potassium. Eighteen sweet potato varieties were compared. The selected variety samples were studied with a row spacing of 70 and 90 cm with a scheme of 70×25 and 90×20 cm for 1, 2 and 3 seedlings in the nest. To obtain seedlings of sweet potato varieties, 40 tubers were taken and planted on February 20–22 in a film greenhouse at a temperature of 15–18 °C, seeding to a depth of 3–5 cm, the soil moisture was maintained at 65–70%. 7–10 days after planting, the buds began to germinate, and after 43–48 days, seedlings were formed with a height of 12–15 cm, which is ready for planting in the field. Planting seedlings in the field is carried out, as well as other seedlings (tomato, pepper, eggplant) according to the scheme 70x20–25 cm in the second or third decade of April. Growing includes inter-row processing (cultivation), weeding, weed control, top dressing, watering. Harvesting in late September, early October with a potato digger. As a result of the research, varieties were identified in terms of early maturity, sprout formation, accelerated reproduction, productivity, compactness of tubers in the nest and ensuring a high marketable yield – Sochakinur, Xar-Bey, and Japon. The cultivation of these varieties according to the scheme 70×25 and 90×20 cm contributes to the production of a commodity crop at 43–48 t/ha with good qualities.

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PERAN TEKNOLOGI DALAM PENGENDALIAN PENCEMARAN LINGKUNGAN HIDUP

Jurnal Rekayasa Lingkungan ◽

10.29122/jrl.v6i2.1923 ◽

2018 ◽

Vol 6 (2) ◽

Author(s):

Arie Herlambang

Keyword(s):

Environmental Pollution ◽

Carrying Capacity ◽

Pollution Control ◽

Liquid Waste ◽

Quality Standards ◽

Environmental Damage ◽

Waste Processing ◽

Environment Pollution ◽

Environment Quality ◽

Waste Solid

Basically, nature has the ability to perform the restoration of environmental damage caused by increased human activity, but because of the limited carrying capacity, then the environment has decreased the quality from year to year. In saving the environment, technology plays a role in reducing the risk of pollution, increased efi siensi process, and creating processes and environmentall friendly products, monitoring and prediction of environment quality, environmental pollution control, restoration and environmental improvement. Waste Technology (end of pipe technology) are widely used to cope with environmental pollution, both for liquid waste, solid and air. Waste processing technology developed for the waste can be in accordance with quality standards thathave been established, while monitoring technology has been developed either manually or automatically. For recovery and improvement of technology has been developed remedies and restoration that rely on bacteria in nature.Keywords: end of pipe technology, reuse, recycle, reduce (3R), carrying capacity, and environment pollution

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Analisis Nutrisi Umbi Ubi Jalar (Ipomoea batatas (L.) Lam.) untuk Konsumsi Bayo dan Anak-anak Suku Dani di Distrik Kurulu Kabupaten Jayawijaya

Agrotek ◽

10.30862/agt.v3i2.563 ◽

2018 ◽

Vol 3 (2) ◽

Author(s):

Andrew B. Pattikawa ◽

Antonius Suparno ◽

Saraswati Prabawardani

Keyword(s):

Sweet Potato ◽

Ipomoea Batatas ◽

Nutritional Value ◽

Animal Feed ◽

Ash Content ◽

Infants And Children ◽

Chemical Analyses ◽

Food Crop ◽

Sweet Potatoes ◽

Development Center

<em>Sweet potato is an important staple food crop especially for the local people of Central Highlands Jayawijaya. There are many accessions that have always been maintained its existence to enrich their various uses. Traditionally, sweet potato accessions were grouped based on the utilization, such as for animal feed, cultural ceremonies, consumption for adults, as well as for infants and children. This study was aimed to analyze the nutritional value of sweet potatoes consumed by infants and children of the Dani tribe. Chemical analyses were conducted at the Laboratory of Post-Harvest Research and Development Center, Cimanggu, Bogor. The results showed that each of 4 (four) sweet potato accessions which were consumed by infants and children had good nutrient levels. Accession Sabe showed the highest water content (72.56%), vitamin C (72.71 mg/100 g), Fe (11.85 mg/100 g), and K levels (130.41 mg / 100 grams). The highest levels of protein (1.44%), fat (1.00%), energy (154.43 kkal/100 gram), carbohydrate (35.47%), starch (30.26%), reducing sugar (3.44%), riboflavin (0.18 mg/100 g), and vitamin A (574.40 grams IU/100 were produced by accession Manis. On the other hand, accession Saborok produced the highest value for ash content (1.32%), vitamin E (28.30 mg/100 g), and ?-carotene (64.69 ppm). The highest level of crude fiber (1.81 %) and thiamin (0.36 mg/100 g) was produced by accession Yuaiken.</em>

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Karakter Morfologi Daun Ubi Jalar Sebagai Bahan Pangan Suku Dani Distrik Kurulu Jayawijaya

Agrotek ◽

10.30862/agt.v2i3.479 ◽

2018 ◽

Vol 2 (3) ◽

Author(s):

Antonius Suparno ◽

Opalina Logo ◽

Dwiana Wasgito Purnomo

Keyword(s):

Sweet Potato ◽

Leaf Morphology ◽

Food Source ◽

Staple Food ◽

Sweet Potatoes ◽

General Outline ◽

Leaf Vein ◽

Mature Leaves ◽

Young Leaves ◽

Tuber Roots

Sweet potato serves as a staple food for people in Jayawijaya. Many cultivars of sweet potatoes have been cultivated by Dani tribe in Kurulu as foot for their infant, child and adult as well as feeding especially for pigs. Base on the used of sweet potatoes as food source for infant and child, this study explored 10 different cultivars. As for the leaf morphology, it was indentified that the mature leaves have size around 15 � 18 cm. general outline of the leaf is reniform (40%), 60% have green colour leaf, 50% without leaf lobe, 60% of leaf lobes number is one, 70% of shape of central leaf lobe is toothed. Abazial leaf vein pigmentation have purple (40%), and petiole pigmentation is purple with green near leaf (60%), besides its tuber roots, sweet potatoes are also harvested for its shoots and green young leaves for vegetables.

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