Effects of soil- and foliar-applied phosphorus fertilizers on the potato (Solanum tuberosum) crop

M. F. ALLISON; J. H. FOWLER; E. J. ALLEN

doi:10.1017/S0021859601001526

Abstract

Twenty-two field experiments in England, done between 1986 and 2000, tested the effects of phosphorus (P) fertilizers on number of tubers and tuber yield in Solanum tuberosum. Applying P fertilizer resulted in statistically significant increases in tuber yield in six experiments and the optimal P application rate ranged from c. 90 to 180 kg P/ha. Statistically significant increases in yield in response to application of P fertilizers were found only in soils that contained < 26 mg Olsen-P/l (< Index 3) and appeared to be associated with increases in ground cover. Statistically significant increases in the number of tubers in response to application of P fertilizer were found only in soils that contained < 16 mg Olsen-P/l (< Index 2) and appeared to be associated with an increase in ground cover by the time of tuber initiation (c. 5–6 week after planting). Each tonne of tuber fresh-weight yield was, on average, associated with removal of 0·39 kg P but regression analysis showed that this value increased as soil Olsen-P increased. Re-analysis of published data showed that whilst the probability of a response to P fertilizer and the optimum P application rate may have been overestimated, some statistically significant responses to P fertilizer did occur when Olsen-P was > 26 mg/l. The absence of yield responses on P Index 3 soils found in the current experiments was attributed to increased use of irrigation that may have increased the availability of soil P. Re-interpretation of data from long-term experiments showed that the agronomic benefits of increasing soil P status by applying more P than is removed by harvested crop parts, are small. Since large P residues, estimated by Olsen-P or degree of soil P saturation, are associated with desorption of P and consequent loss to drainage water it is inadvisable to increase soil P above Index 3. For these reasons, no P fertilizer is recommended for Index 4 soils, an amount equivalent to replacement is recommended for Index 3 soils but up to 110–130 kg P/ha should be applied to Index 0 soils. Applications of foliar P had no effect on number of tubers or tuber yield and this practice cannot be recommended.

Crossref Citations

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White, Philip J. Wheatley, Ron E. Hammond, John P. and Zhang, Kefeng 2007. Potato Biology and Biotechnology. p. 739.

Hopkins, Bryan G. Ellsworth, Jason W. Shiffler, Amanda K. Bowen, Thomas R. and Cook, Aaron G. 2010. PRE-PLANT VERSUS IN-SEASON APPLICATION OF PHOSPHORUS FERTILIZER FOR RUSSET BURBANK POTATO GROWN IN CALCAREOUS SOIL. Journal of Plant Nutrition, Vol. 33, Issue. 7, p. 1026.

Mohr, Ramona M. and Tomasiewicz, Dale J. 2011. Effect of Phosphorus Fertilizer Rate on Irrigated Russet Burbank Potato. Communications in Soil Science and Plant Analysis, Vol. 42, Issue. 18, p. 2284.

Dkhil, Besma Ben Denden, Mounir and Aboud, Samia 2011. Foliar Potassium Fertilization and its Effect on Growth, Yield and Quality of Potato Grown under Loam-sandy Soil and Semi-arid Conditions. International Journal of Agricultural Research, Vol. 6, Issue. 7, p. 593.

Ekelöf, J. E. Asp, H. and Jensen, E. S. 2012. Potato yield response to foliar application of phosphorus as affected by soil moisture and available soil phosphorus. Acta Agriculturae Scandinavica, Section B - Soil & Plant Science, Vol. 62, Issue. 7, p. 637.

Kikuchi, Kentarou Kobayashi, Terukazu Tanaka, Hiromu Ikeda, Takuma Nakamaru, Yasuo Itoh, Hirotake Kasajima, Shinya and Yoshida, Hozumi 2012. Cultivation of Potato (Solanum tuberrosum) without Phosphorus and Potassium Fertilization in Abashiri Area. Japanese Journal of Crop Science, Vol. 81, Issue. 4, p. 404.

Broadley, Martin R. and White, Philip J. 2012. Phytonutrients. p. 254.

Collins, Harold P Streubel, Jason Alva, Ashok Porter, Lyndon and Chaves, Bernardo 2013. Phosphorus Uptake by Potato from Biochar Amended with Anaerobic Digested Dairy Manure Effluent. Agronomy Journal, Vol. 105, Issue. 4, p. 989.

Ekelöf, J. E. Lundell, J. Asp, H. and Jensen, E. S. 2014. Recovery of phosphorus fertilizer in potato as affected by application strategy and soil type. Journal of Plant Nutrition and Soil Science, Vol. 177, Issue. 3, p. 369.

Hopkins, Bryan G. Horneck, Donald A. and MacGuidwin, Ann E. 2014. Improving Phosphorus Use Efficiency Through Potato Rhizosphere Modification and Extension. American Journal of Potato Research, Vol. 91, Issue. 2, p. 161.

Rosen, Carl J. Kelling, Keith A. Stark, Jeffery C. and Porter, Gregory A. 2014. Optimizing Phosphorus Fertilizer Management in Potato Production. American Journal of Potato Research, Vol. 91, Issue. 2, p. 145.

Zamuner, Ester C. Lloveras, Jaume and Echeverría, Hernán E. 2016. Use of a Critical Phosphorus Dilution Curve to Improve Potato Crop Nutritional Management. American Journal of Potato Research, Vol. 93, Issue. 4, p. 392.

Reid, JB Searle, BP Sinton, SM Michel, A Meenken, ED Brown, H Roberts, A and Manning, M 2016. Fertiliser practice and yield losses in process potato crops grown in Canterbury, New Zealand. New Zealand Journal of Crop and Horticultural Science, Vol. 44, Issue. 1, p. 41.

Magdas, Dana Alina Dehelean, Adriana Feher, Ioana and Radu, Stelian 2017. Isotopic and multielemental fingerprinting of organically and conventionally grown potatoes. Isotopes in Environmental and Health Studies, Vol. 53, Issue. 6, p. 610.

Habtam, Setu Nigussie, Dechassa and Yibekal, Alemayehu 2018. Influence of phosphorus and potassium fertilizers on growth and yield of potato (Solanum tuberosum L.) at Assosa, Benishangul Gumuz Regional State, Western Ethiopia. Journal of Soil Science and Environmental Management, Vol. 9, Issue. 6, p. 81.

White, Philip J. Bradshaw, John E. Brown, Lawrie K. Dale, M. Finlay B. Dupuy, Lionel X. George, Timothy S. Hammond, John P. Subramanian, Nithya K. Thompson, Jacqueline A. Wishart, Jane and Wright, Gladys 2018. Juvenile root vigour improves phosphorus use efficiency of potato. Plant and Soil, Vol. 432, Issue. 1-2, p. 45.

Alexopoulos, A.A. Varzakas, T. Karras, S. Koriki, A. Kotsiras, A. and Xynias, I. 2019. Effect of nitrogen and phosphorus fertilization on growth components, yield and tuber quality characteristics of two potato cultivars grown under organic production system. Acta Horticulturae, p. 191.

Ou, Yang Rousseau, Alain N. Wang, Lixia Yan, Baixing Gumiere, Thiago and Zhu, Hui 2019. Identification of the alteration of riparian wetland on soil properties, enzyme activities and microbial communities following extreme flooding. Geoderma, Vol. 337, Issue. , p. 825.

Talboys, Peter J. Healey, John R. Withers, Paul J. A. Roose, Tiina Edwards, Anthony C. Pavinato, Paulo S. and Jones, Davey L. 2020. Combining Seed Dressing and Foliar Applications of Phosphorus Fertilizer Can Give Similar Crop Growth and Yield Benefits to Soil Applications Together With Greater Recovery Rates. Frontiers in Agronomy, Vol. 2, Issue. ,

Kelling, Keith A. Wolkowski, Richard P. Speth, Phillip E. and Andraski, Todd W. 2020. Interaction of Fertilizer Phosphorus Rate and Placement/Timing on Potatoes. American Journal of Potato Research, Vol. 97, Issue. 4, p. 420.

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Effects of soil- and foliar-applied phosphorus fertilizers on the potato (Solanum tuberosum) crop

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Effects of soil- and foliar-applied phosphorus fertilizers on the potato (Solanum tuberosum) crop

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