Supply fertilization systems (ipomoea batatas) in the conditions of the left bank Forest Steppe of Ukraine

Authors

  • O. V. Kuts Institute of Vegetable and Melon NAAS of Ukraine , Інститут овочівництва і баштанництва НААН України
  • S. V. Shevchenko Institute of Vegetable and Melon NAAS of Ukraine , Інститут овочівництва і баштанництва НААН України
  • V. I. Mikhailin Institute of Vegetable and Melon NAAS of Ukraine , Інститут овочівництва і баштанництва НААН України
  • I. I. Semenenko Institute of Vegetable and Melon NAAS of Ukraine , Інститут овочівництва і баштанництва НААН України

DOI:

https://doi.org/10.31548/dopovidi2021.01.007

Keywords:

sweet potato, fertilizers, nutrients, soil nutrient composition, dry matter

Abstract

The research was conducted during 2019–2020 in the laboratory of agrochemical research and product quality of the Institute of Vegetable and Melon NAAS. The soil of the experimental site - typical low-humus loamy chernozem on loess loam (in the plow layer (0-25 cm) of humus contained 4.3%N hydrolyzed - 139,0 mg/kg, mobile P - 106-119 mg/kg and exchangeable K - 93 mg/kg of soil, hydrolytic acidity - 2.8 mg-Eq per 100 g of soil, pH of salt extract - 5.7, the sum of absorbed bases - 26.0 mg-Eq per 100 g of soil).

The research studied the effectiveness of different fertilizing systems: 1) without fertilizer (control); 2) N185P185K225; 3) N370P370K450; 4) N370P370K450 + foliar fertilization with complex fertilizer "Nutrivant plus universal" 2 kg / ha in 3 terms; 5) mold 20 t/ha + ash 1 t/ha 6) mold 20 t/ha + ash 1 t/ha + tillage planting soil fertilizer "Hraundfiks" (3 l/ha) + the first fertigation microbial drug " Azotophyte ”(1 l/ha) + for the second fertigation microbial preparation“ Organic Balance ”(1 l/ha) + foliar fertilization“ Help-rost for vegetable plants ”2 l/ha in 3 terms.

Foliar fertilization was carried out in three terms: 30 days after planting (III decade of June), with active growth of vegetative mass (III decade of July), with active growth of tubers (III decade of August).

The research was conducted in accordance with generally accepted methods. The total area of the plot was 33.6 m2, accounting - 21 m2, repetition - three times. In the study, sweet potatoes of the Slobozhansky Ruby variety were grown under drip irrigation, planting schemes (100 + 40) x 25 cm and mulching the soil with straw.

According to the results of the study, it was found that the use of mineral and organic fertilizers by improving the nutritional conditions of plants provided an increase in the yield of sweet potato tubers and had a positive effect on their biochemical properties. On average, over the years of research, the use of different fertilizer systems causes an increase in the total yield of tubers by 5.3–8.7 t / ha or 34–56%, the yield of standard tubers - by 2.9–4.6 t / ha or 27–42 %.

The highest level of sweet potato yield was provided by the use of N370P370K450 in combination with Nutrivant plus universal foliar fertilizers. The total yield of such a fertilizer system is 24.3 t / ha, of which 15.5 t / ha of standard tubers.

According to our data, the effectiveness of increasing the dose of mineral fertilizers from N185P185K225 to N370P370K450 has not been proven, as there is no significant difference between the options. Additional fertilization with complex fertilizers provides a positive trend to increase the yield of sweet potatoes by 3.3 t/ha.

The use of an organic fertilizer system (20 t / ha of humus and 1 t / ha of ash) provides an increase in the total yield of tubers by 6.7 t / ha or 43%, while the additional use of a set of microbial drugs is not justified by a significant increase in yield (22.8 t / ha).

It was found that the use of organic fertilizers in combination with microbial preparations had the most positive effect on the biochemical composition of sweet potato tubers. Under this system of nutrition optimization, the dry matter content in tubers (18.6%), starch (9.06%) increased, and the low nitrate content (28.1 mg / kg) was noted. Under the mineral fertilizer system N370P370K450 with the use of complex fertilizers significantly increased the dry matter content (17.7%), however, the nitrate content was the highest in the experiment (78.5 mg / kg). There is a tendency to reduce the total sugar in sweet potato tubers with the use of all fertilizer systems, especially with the use of mineral fertilizer system N370P370K450 in combination with foliar fertilization "Nutrivant plus universal" (3.4% with the value of this indicator in control - 4.74%).

To adjust the doses of mineral fertilizers under sweet potatoes, we calculated the absorption coefficients of nutrients from fertilizers and soil. It was found that on chernozem, a typical low-humus light loam plant, sweet potatoes absorb up to 57% of mobile forms of N, 11.6% of mobile forms of P and up to 61.2% of mobile forms of K. Nutrient utilization factors from mineral fertilizers are 40.7% for N; P - 26.1%, K - 73.5%. It should be noted that the utilization rates of soil nutrients vary not only depending on the biological characteristics of plants, but also due to changes in soil fertility, weather conditions, level of technological support, etc., which to some extent complicates their use in determining estimated doses of fertilizers.

The rate of absorption of nutrients by sweet potato plants under different fertilizer systems was established. Without fertilizers, sweet potato plants absorb 88.2% N, 60.6% P and 80.5% K from the total consumption of plant nutrients in the first two months of growth. With mineral and organic fertilizer systems, the peak of nutrient consumption occurs at 2-3 months of plant growth, ie with the active formation and growth of tuber mass.

Without the use of fertilizers by the end of the growing season significantly reduced uptake by plants P (104.4 kg/ha) and K (252.4 kg/ha), which, in our opinion, affect the reduction in yield yam. It should be noted that the uptake of K by sweet potato plants in the Forest-Steppe of Ukraine is higher than in the soils of the southern regions (according to Degras [34], the removal of K with sweet potato plants is 110–135 kg/ha).

It is noted that depending on the fertilizer system 56.9–76.9% of N accumulates in the leaves, 10.2–13.6% in the stems, 12.9–29.5% in the roots and tubers. P 31.2–49.9% accumulates in leaves, 13.4–20% in stems, 30.1–55.4% in roots and tubers; for K 41.6–51.9% in leaves, 13.2–21.2% in stems, 26.9–45.2% in tubers and roots.

References

WoolfeJ. A. (2008) Sweet potato: an untapped food resource./ Editors Woolfe J. A.Cambridge University Press: UK, Р.643.

Ramirez Р. (1991) Cultivation harvesting and storage of sweet potato products.In: Roots, tubers, plantains and bananas in animal feeding. (Eds Machin, D.; Nyvold, S.), Proceedings of the FAO Expert Consultation held in CIAT, Cali, Colombia21-25 January; FAO Animal Production and Health Paper - 95

Nicanor O.O., George O.A., Michael W.O., Edward G. (2015)Development of High Protein and Vitamin A Flakes from Sweet Potato Roots and LeavesKaruri. Open Access Library Journal. № 7.

https://doi.org/10.4236/oalib.1101573

Heritier K.M., Kahiu N., Florence M., Olubayo B., Musembi K., James W. (2018) Agronomic Performance of Kenyan Orange Fleshed Sweet Potato Varieties. Jurnal of Plant Studies.№ 2. РР. 11-19

https://doi.org/10.5539/jps.v7n2p11.

Dinu М., Soare R, Bаbeanu C.G., Hoza G. (2018)Analysis of nutritional composition and antioxidant activity of sweet potato (Ipomoea batatas L.) leaf and petiole.Journal of Applied Botany and Food Quality.№9.Р.120-125.

Rosas-Ramirez D., Pereda-Miranda R. (2013) Residuous glycosides from yellow-sweet sorts of sweet potatoes (Ipomoea batatas). Faculty of Culture, National Autonomous University of Mexico, Ciudad University, Mexico. 2013. https://doi.org/10.1021/jf402952d

Sochinwechi N., Dilip N., Ramasamy R. (2017)Bioactive Compounds in Organic Sweetpotato. Journal of Advances in Molecular Biology. №. 1 (2). P. 81-90.

Olayiwola I.O., Abubakar H.N., Adebayo G.B.,Oladipo F.O. (2009) Study of Sweet Potato (Ipomeabatatas Lam) Foods for Indigenous Consumption Through Chemical and Anti-Nutritive Analysis in Kwara State, Nigeria. Pakistan Journal of Nutrition.№8.Р. 1894-1897.

https://doi.org/10.3923/pjn.2009.1894.1897.

Sochinwechi N., Dilip N., Ramasamy R. (2017) Bioactive Compounds in Organic Sweetpotato. Journal of Advances in Molecular Biology.№1.Р. 81-90.

Rees D., Kapinga R., Rwiza E., Mohammed R., Van Oirschot Q., Carey E., Westby A. (1998) The potential for extending shelf-lifeof sweet potato in East Africa through cultivar selection. Tropical Agriculture. №75. Р. 208-211.

Ishiguro K., Toyama J., Yoshimoto M. (2007) Nutrition and utilization of a new sweetpotato cultivar or tops. Proceedings of the Thirteenth Triennial Symposium of the International Society for Tropical Root Crops (ISTRC).ISTRC, AICC Arusha, Tanzania.Р. 550-553.

Rickard J.E. (1985) Physiological deterioration in cassava roots. J. Sci. Food Agri. №36. Р. 167-176. https://doi.org/10.1002/jsfa.2740360307

Teshome-Abdissa M., Nigussie-Dechassa R. (2012) Yield and yield component of sweet potato as affected by Farmyard manure and Phosphorus application: in the case of Adami Tulu District, Central Rift Valley of Ethiopia.Basic Research Journal of Agricultural Science and Review.№ 1(2).Р. 31-42. https://doi.org/10.9734/AJEA/2011/173

Merga B., Kebede T.W., Tamado T. (2017)Effects of Application of Farmyard Manure and Inorganic Phosphorus on Tuberous Root Yield and Yield Related Traits of Sweet Potato Ipomoea batatas (L.) Lam. at Assosa, Western Ethiopia.Advances in Crop Science andTechnology.№5.

https://doi.org/10.4172/2329-8863.1000302

Dаnya T. (2011) Departament of Agronomy: thesis / Kerala Agricultural University.Vellayani.85р.

Ankumah R.O., Khan V., Mwamba K., Kpomblekou К. (2003)Thein fluence of source and timing of nitrogen fertilizers on yield and nitrogen use efficiency off our sweet potato cultivars.Agriculture, ecosystems and the environment.№100 (2-3).Р. 201-207.

https://doi.org/10.1016/S0167-8809(03)00196-8.

Akinrinde E.A.,Obigbesan G.O. (2006)Benefits of phosphate rocks in crop production: Experience on benchmark tropical soil areas in Nigeria.Journal of Biological Sciences.№ 6.РР. 999-1004.

https://doi.org/10.3923/jbs.2006.999.1004.

Kolo M.,Tikpangi S., Simon O., Major O. (2015)Trace.Elements Composition of Phosphate Bearing Sedimentary Rocks from Sokoto, Northwest Nigeria.American Journal of Environmental Protection. №3(4). Р. 106-111.

Edem I. Dennis, Rosemary A. Essien, Utibe-Abasi H. Udoh. (2013) Dynamics of Heavy Metal Runoff from Farmland around Ikpa River Basin, Nigeria.Applied Ecology and Environmental Sciences. №1(6). Р. 143-148.

https://doi.org/10.12691/aees-1-6-7

M. Popovych, I. Dziuba, N. Kornienko and others (2001)Universal dictionary-encyclopedia [Universalʹnyyslovnyk-entsyklopediya ]. K.-Lviv. 1432 p.

AbdEl-Baky, Ahmed M.H., Faten A.A., AbdEl-AalS., Salman S.R. (2009) EffectofSomeAgriculturalPracticesonGrowth, Productivity and Root Quality of Three Sweet Potato Cultivars. Journal of Applied Sciences Research. 5. Р. 1966-1976.

Bourke R. M. (1977) Sweet potato (Ipomoea batatas) fertilizertrials on the Gazelle Peninsula of New Britain.Papua New Guinea Agricultural Journal.№28. Р.73-95.

Hartemink A.E., Johnston M., O'Sullivan J.N., Poloma S. (2000)Nitrogen use efficiency of taro and sweet potato inthe humid lowlands of Papua New Guinea. AgricultureEcosystems and Environment.№79. Р. 271-280. https://doi.org/10.1016/S0167-8809(00)00138-9

Dumbuya G., Sarkodie-Addo J., Daramy M.A., Jalloh M. (2017) Effect of in Cutting Length and Potassium Fertilizer Rates on Sweet Potato Growth and Yield Components. International Journal of Agriculture and Forestry.№7. РР.88-94.

deGeus J. G. (1973)Fertilizer Guide for the Tropics and Subtropics. Centre d'Etude de l'Azote, Zurich. 774 р.

Uwah D.F., Undie U.L., John N.M.,Ukoha G.O. (2013)Growth and Yield Response of Improved Sweet Potato (Ipomoea batatas) Varieties to Different Rates of Potassium Fertilizer in Calabar, Nigeria. Journal of Agricultural Science.№5. Р. 61-69. https://doi.org/10.5539/jas.v5n7p61

Qwudike U.S.(2010) Effectiveness of cow dung and mineral fertilization on soil, nutrient uptake and yield of sweet potato in South-easernNigeria. Asian. Agricultural Resесh. №43. Р. 148-154.

https://doi.org/10.3923/ajar.2010.148.154

Ali M.R., Costa, D.J., Sayed M.A., Basak N.S. (2009)Efect of fertilizer and variety on the yield of sweet potato. Bangladesh. AgriculturalResесh. №343. Р. 473-480. https://doi.org/10.3329/bjar.v34i3.3974

Obigbesan G.O., Agboola, A.A.,Fayemi A.A. (1976) Effect of potassium on tuber yield and nutrient uptake of yam varieties.Proceedings of the 4th Symposium of the International Society of Tropical Roots Crops. IDRC - CIAT, Columbia. Ed. Cock, Macintyre and Graham. Р. 104-107.

Hassan M. A., El-Seifi S. K., Omar E. A., SaifEI-Deen U. M. (2005). Effect of mineral and bio-phosphate fertilization and foliar application of some micronutrients on growth, yield and quality of sweet potato (Ipomoea batata L.).1- Vegetative growth, yield and tuber characteristics.J. Agric. Sci. Mansoura Univ.№30. Р. 6149-6166.

Floyd C.N., LefroyR D.B., D'Souza E.J. (1988)Soilfertility and sweet potato production on volcanic ash soils inthe highlands of Papua New Guinea. FieldCropsResearch. №19. Р. 1-25.

https://doi.org/10.1016/0378-4290(88)90030-5

Bondarenko G.L., Yakovenko K.I. ed.(2001) Methods of research in vegetable growing and melon growing [Metodyka doslidnoyi spravy v ovochivnytstvi i bashtannytstvi]. Kharkiv: Osnova, 369 p.

Dospekhov B.A. (1985) Methods of field experience (with the basics of mathematical processing of research results)[Metodikapolevogoopyta (s osnovamimatematicheskoyobrabotkirezul'tatovissledovaniy)].M .: Agropromizdat, 351 p.

Degras L. (2003) Sweet potato.The Tropical Agriculturalist. Malaysia: Macmillan Publishers Ltd.Р. 45-51.

Downloads

Published

2021-02-25

Issue

No. 1(89) (2021)

Section

Agronomy

License

Relationship between right holders and users shall be governed by the terms of the license Creative Commons  Attribution – non-commercial – Distribution On Same Conditions 4.0 international (CC BY-NC-SA 4.0):https://creativecommons.org/licenses/by-nc-sa/4.0/deed.uk

Authors who publish with this journal agree to the following terms:

  • Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
  • Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
  • Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).