[AMADI, C.O. – ENE-OBONG, E.E. 2007. Genetic variability and interrelationships of some potato attributes in Jos Plateau, Nigeria. In Nigerian Journal of Botany, vol. 20, 2007, no. 1, pp. 233–245.]Search in Google Scholar
[AMADI, C.O. – ENE-OBONG, E. E. – OKOC, B. E. 2008. Path analysis of yield of some potato hybrids and their progenitors in Northern Guinea Savanna of Nigeria. In PAT, vol. 4, 2008, no. 2, pp. 28–37.]Search in Google Scholar
[ARTHI RANI, B. – MARAGATHAM, N. 2013. Effect of elevated temperature on rice phenology and yield. In Indian Journal of Science and Technology, vol. 6, 2013, no. 8, pp. 5096–5098.]Search in Google Scholar
[BELANGER, G. – WALSH, J.R. – RICHARDS, J.E. – MILBURN, P.H. – ZIADI, N. 2001. Tuber growth and biomass partitioning of two potato cultivars grown under different N fertilization rates with and without irrigation. In American Journal of Potato Research, vol. 78, 2001, pp. 109–117.]Search in Google Scholar
[BEUKEMA, H.P. – VAN DER WAAG, D.E. 1990. Introduction to potato production. Wageningen : Pudoc, 1990, pp. 23–24.]Search in Google Scholar
[BHAGSARI, A.S. 1988. Photosynthesis and stomatal conductance of selected root crops as related to leaf age. In Crop Science, vol. 28, 1988, pp. 902–906.]Search in Google Scholar
[BOKEN, V.K. – CHANDRA, S. 2012. Estimating leaf area index for an arid region using spectral data. In African Crop Science Journal, vol. 20, 2012, no. 4, pp. 215–223.]Search in Google Scholar
[BRADSHAW, J.E. 2009. A Genetic perspective on yield plateau in potato. In Potato J., vol. 36, 2009, no. 3–4, pp. 79–94.]Search in Google Scholar
[BRODRIBB, T.J. – FIELD, T.S. – JORDAN, G.J. 2007. Leaf maximum photosynthetic rate and venation are linked by hydraulics. In Plant Physiology, vol. 144, 2007, pp. 1890–1898.]Search in Google Scholar
[CIEPLY, J. 1976. The productivity of photosynthesis of several varieties of spring barley and potatoes as an index of their fertility (Abstr.). Krakow : RepAcadAgric, 1976.]Search in Google Scholar
[C.I.P. 2008. Inte rnational Potato Center (ICP). 2008. www.cipotato.org/sweetpotato/]Search in Google Scholar
[CARROLL, C.P. 1982. A mass-selection method for the acclimatization and improvement of edible diploid potatoes in the United Kingdom. In Journal of Agricultural Science Cambridge, vol. 99, 1982, pp. 631–640.]Search in Google Scholar
[CARROLL, C.P. – DE MAINE, M.J. 1989. The agronomic value of tetraploid F1 hybrids between potatoes of group Tuberosum and group Phureja/Stenotomum. In Potato Research, vol. 32, 1989, pp. 447–56.]Search in Google Scholar
[CPRI. 2011. Vision 2030. Central Potato Research Institute, Shimla, India, 2011, 40 p.]Search in Google Scholar
[CROSBIE, T.M. – PEARCE, R.B. – MOCK, J.J. 1981. Recurrent phenotypic selection for high and low photosynthesis in two maize populations. In Crop Science, vol. 21, 1981, pp. 736–740.]Search in Google Scholar
[CUBILLOS, A.G. – PLAISTED, R.L. 1976. Heterosis for yield in hybrids between S. tuberosum ssp. Tuberosum and tuberosum ssp. andigena. In American Potato Journal, vol. 53, 1976, pp. 143–150.]Search in Google Scholar
[DEGUCHI, T. – NAYA, T. – WANGCHUK, P. – ITOH, E. – MASSUMOTO, M. – ZHENG, X. – GOPAL, J. – IWAMA, K. 2010. Aboveground characteristics, yield potential and drought tolerance in “Konyu” potato cultivars with large root mass. In Potato Research, vol. 53, 2010, pp. 331–340.]Search in Google Scholar
[DICKINSON, T.A. – PARKER, W.H. – STRAUSS, R.E. 1987. Another approach to Leaf Shape Comparisons. In Taxonomy, vol. 36, 1987, no. 1, pp. 1–20.]Search in Google Scholar
[DONALD, C.M. 1968. The breeding of crop ideotype. In Euphytica, vol. 17, 1968, pp. 385–403.]Search in Google Scholar
[DOUCHES, D.S. – MAAS, D. – JASTRZEBSKI, K. – CHASE, R.W. 1996. Assessment of potato breeding progress in the USA over the last century. In Crop Science, vol. 36, 1996, pp. 1544–1552.]Search in Google Scholar
[FAO. 2014. Statistical databases FAOSTAT. http://faostat.fao.org/site/567/default.aspx#ancor, 2014.]Search in Google Scholar
[FEKADU, A. – PETROS, Y. – ZELLEKE, H. 2013. Genetic variability and association between agronomic characters in some potato (Solanum tuberosum L.) genotypes in SNNPRS, Ethiopia. In International Journal of Biodiversity and Conservation, vol. 5, 2013, no. 8, pp. 523–528.]Search in Google Scholar
[GLENDINNING, D.R. 1975. Neo-Tuberosum: New potato breeding material. 2. A comparison of Neo-Tuberosum with unselected Andigena and with Tuberosum. In Potato Research,vol. 18, 1975, pp. 343–350.]Search in Google Scholar
[GOPAL, J. – CHAHAL, G.S. – MINOCHA, J.L. 2000. Progeny mean, heterosis and heterobeltiosis in Solanum tuberosum × tuberosum and S. tuberosum × andigena families under a short day sub-tropic environment. In Potato Research, vol. 43, 2000, pp. 61–70.]Search in Google Scholar
[GOUDRIAAN, J. – VAN LAAR, H.H. 1994. Modelling potential crop growth processes. Dordrecht : Kluwer Academic Publishers, 1994.]Search in Google Scholar
[HASSAN, Q.K. – CHARLES, P. – BOURQUE, A. – MENG, F.R. – RICHARDS, W. 2007. Spatial mapping of growing degree days: an application of MODIS-based surface temperatures and enhanced vegetation index. In Journal of Applied Remote Sensing, vol. 1, 2007, pp. 1–12.]Search in Google Scholar
[HAVERKORT, A. J. 1990. Ecology of potato cropping systems in relation to latitude and altitude. In Agricultural Systems, vol. 32, 1990, no. 3, pp. 251–272.]Search in Google Scholar
[HAVERKORT, A.J. – FRANKE, A. C. – STEYN, J. M. – PRONK, A. A. – CALDIZ, D. O. – KOOMAN, P. L. 2015. A Robust Potato Model: LINTUL-POTATO-DSS A. In J. Potato Research, 2015, no. 58, pp. 313–327.]Search in Google Scholar
[HUE, S.M. – CHANDRAN, S. – BOYCE, A.N. 2010. ISHS Acta Horticulturae 943: Asia Pacific Symposium on Postharvest Research, Education and Extension 1 Variationsof Leaf and Storage Roots Morphology in Ipomoea batatas L. (Sweet potato) Cultivars. ISHS Acta Horticulturae. 2010, 943: Asia Pacific Symposium on Postharvest Research, Education and Extension.]Search in Google Scholar
[HUNT, S. C. – HASSTEDT, S. J. – WU, L. L. – WILLIAMS, R. R. 1993. A gene-environment interaction between inferred kallikrein genotype and potassium. In Hypertension, vol. 22, 1993, no. 2, pp. 161–168.]Search in Google Scholar
[IWAMA, K. 2008. Physiology of the potato: New insights into root system and repercussions for crop management. In PotatoResearch, vol. 51, 2008, pp. 333–353.]Search in Google Scholar
[IWAMA, K. – YAMAGUCHI, J. 2006. Chapter 7. Abiotic Stresses. In Handbook of potato production, improvement, and postharvest management, ed. Gopal, J. – Khurana, S.M.P., New York : The Haworth Press, 2006, pp. 231–278.]Search in Google Scholar
[JAMIESON, P.D. – SEMENOV, M.A. – BROOKING, I.R. – FRANCIS, G.S. 1998. Sirius: a mechanistic model of wheat response to environmental variation. In European Journal of Agronomy, vol. 8, 1998, pp. 161–179.]Search in Google Scholar
[JONCKHEERE, I. – FLECK, S. – NACKERTS, K. – MUYS, B. – COPPIN, P. – BAREF, M. 2004. Review of methods for in situ leaf area index determination: theories, sensors and hemispheral photography. In Agricultural and Forest Meteorology, vol. 121, 2004, no. 1–2, pp. 19–35.]Search in Google Scholar
[KUMAR, R. – KUMAR, V. – GOPAL, J. – LUTHRA, S.K. – PANDEY, S.K. 2008. Inventory of Potato Germplasm (Group Andigena) Collection. In Technical Bulletin, CPRI, Shimla, India, 2008, no. 86.]Search in Google Scholar
[LOPES, M.S. – REYNOLDS, M.P. 2010. Partitioning of assimilates to deeper roots is associated with cooler canopies and increased yield under drought in wheat. In Functional Plant Biology, vol. 37, 2010, pp. 147–156.]Search in Google Scholar
[LOPES, E.C. – JADOSKI, S.O. – SAITO, L.R. – SCHEIFITER DE RAMOS, M. 2013. Plant morphological characteristics and yield of Potato cv. Agata in function to fungicides application. In Brazilian Journal of Applied Technology for Agricultural Science, Guarapuava-PR, vol. 6, 2013, no. 1, pp. 37–46.]Search in Google Scholar
[MACKAY, G.R. 1996. An Agenda for future potato research. In Potato Res, vol. 39, 1996, pp. 387–394.]Search in Google Scholar
[MAHON, J.D. – HOBBS, S.L. 1981. Selection of peas for photosynthetic CO2 exchange rate under field conditions. In Crop Science, vol. 21, 1981, pp. 616–621.]Search in Google Scholar
[MC MASTER, G.S. – WILHELM, W.W. 1997. Growing degree-days: one equation, two interpretations. In Agricultural and Forest Meteorology, vol. 87, 1997, no. 4, pp. 291–300.]Search in Google Scholar
[MILLER, D.E. – MARTIN, M.W. 1987. The effect of irrigation regime and subsoiling on yield and quality of three potato cultivars. In American Potato Journal, vol. 64, 1987, pp. 17–25.]Search in Google Scholar
[MIGLIETTA, F. – MAGLIULO, V. – BINDI, M. – CERIO, L. – VACCARI, F.P. – LODUCA, V. – PERESSOTTI, A. 1998. Free air CO2 enrichment of potato (Solanum tuberosum L.): development, growth and yield. In Global Change Biology, vol. 4, 1998, pp. 163–172.]Search in Google Scholar
[MINHAS, J.S. – RAWAT, S. – GOVINDAKRISHNAN, P.M. – KUMAR, D. 2011. Possibilities of enhancing potato production in non-traditional areas. In Potato Journal, vol. 38, 2011, no. 1, pp. 14–27.]Search in Google Scholar
[MITCHELL, P.L. – SHEEHY, J.E. – WOODWARD, F.I. 1998. Potential yields and the efficiency of radiation use in rice. IRRI Discussion Paper Ser. 32. Manila : IRRI, 1998.]Search in Google Scholar
[MOL, L. – HENNIGER, A.W. 1978. Genotypische Photosynthescratevon Kartoffeln und ihre Mogliche RoUe fur die Ertagsbildung. In Photosynthetica, vol. 12, 1978, pp. 51–61.]Search in Google Scholar
[MONTEITH, J.L. – UNSWORTH, M.H. 1990. Principles of environmental physics, 2nd ed., Oxford : Butterworth, 1990.]Search in Google Scholar
[NUNES, J.C.S. – FONTES, P.C.R. – ARAUJO, E.F. – SEDIYAMA, C. 2006. Crescimento da batateira e absorcao de macronutrients influenciadospelossistemas de prepare de solo e irrigacao. In Pesquisa Agropecuaria Brasileira, vol. 41, 2006, no. 12, pp. 1787–1792.]Search in Google Scholar
[OZTURK, G. – YILDIRIM, Z. 2014. Heritability estimates of some quantitative traits in potatoes. In Turkish Journal of Field Crops, vol. 19, 2014, no. 2, pp. 262–267.]Search in Google Scholar
[PUSHKARNATH. 1976. Potato in Subtropics. New Delhi : Orient Longman, 1976, 289 p.]Search in Google Scholar
[REGASSA, D. – BASAVARAJ, N. 2005. Genetic variability studies in potato (Solanum tuberosum L.). In Karnataka Journal of Agricultural Science, vol. 18, 2005, no. 1, pp. 87–90.]Search in Google Scholar
[REINHARDT, D. – KUHLEMEIER, C. 2002. Plant architecture. In EMBO Report, vol. 3, 2002, pp. 846–851.]Search in Google Scholar
[ROSS, H.A. – DAVIES, H.V. – BURCH, L.R. – VIOLA, R. – MCRAE, D. 1994. Developmental changes in carbohydrate content and sucrose degrading enzymes in tuberising stolons of potato (Solanum tuberosum). In Physiology Plantarum, vol. 90, 1994, pp. 748–756.]Search in Google Scholar
[REINHARDT, D. – KUHLEMEIER, C. 2002. Plant architecture. In EMBO reports, vol. 3, 2002, no. 9, pp. 846–851.]Search in Google Scholar
[SANANSE, S.L. – BORUDE, S.G. – PATIL, H.N. 1990. A study on variability and trends in area, production and productivity of rice in Konkan region of Maharashtra. In Journal of Maharashtra Agricultural University, vol. 15, 1990, no. 1, pp. 86–89.]Search in Google Scholar
[SAXENA, R. – MATHUR, P. 2013. Analysis of potato production Performance and yield variability in India. In Potato J, vol. 40, 2013, no. 1, pp. 38–44.]Search in Google Scholar
[SCHITTENHELM, S. – SOURELL, H. – LÖPMEIER, F.J. 2006. Drought resistance of potato cultivars with contrasting canopy architecture. In European Journal of Agronomy, vol. 24, 2006, pp. 193–202.]Search in Google Scholar
[SCHUSTER, W.H. 1997. How much does plant breeding contribute to yield improvement of crops? In German Journal of Agronomy, vol. 1, 1997, pp. 9–18.]Search in Google Scholar
[SCOFFONI, C. – RAWLS, M. – MCKOWN, A. – COCHARD, H. – SACK, L. 2011. Decline of leaf hydraulic conductance with dehydration: Relationship to leaf size and venation architecture. In Plant Physiology, vol. 156, 2011, pp. 832–843.]Search in Google Scholar
[SCOTT, G.J. – SUAREZ, V. 2011. Growth rates for potato in India and their implications for industry. In Potato Journal, vol. 38, 2011, no. 2, pp. 100–12.]Search in Google Scholar
[SINGH, B. – EZEKIEL, R. 2003. Influence of relative humidity on weight loss in potato tubers stored at high temperature. In Indian Journal of Plant Physiology, vol. 8, 2003, no. 2, pp. 141–144.]Search in Google Scholar
[SHAHNAZARI, A. – AHMADI, S.H. – LAERKE, P.E. – LIU, F. – PLAUBORG, F. – JACOBSEN, S.E. – JENSEN, C.R. – ANDERSEN, M.N. 2008. Nitrogen dynamics in the soil-plant system under deficit and partial root-zone drying irrigation strategies in potatoes. In European Journal of Agronomy, vol. 25, 2008, pp. 65–73.]Search in Google Scholar
[SINCLAIR, T.R. – MUCHOW, R.C. 1999. Radiation use efficiency. In Advances in Agronomy, vol. 65, 1999, pp. 215–265.]Search in Google Scholar
[SPIELMEYER, W. – ELLIS, M.H. – CHANDLER, P.M. 2002. Semidwarf (sd-1), ´green revolution‘ rice, contains a defective gibberellin 20-oxidase gene. In Proceedings of National Acadomy of Science USA, vol. 99, 2002, pp. 9043-9048.]Search in Google Scholar
[SPITTERS, C.J.T. – SCHAPENDONK, A.H.C.M. 1990. Evaluation of breeding strategies for drought tolerance in potato by means of crop growth simulation. In Plant and Soil, vol. 123, 1990, pp. 193–203.]Search in Google Scholar
[STARK, J.C. – PAVEK, J.J. – MCCANN, I.R. 1991. Using canopy temperature measurements to evaluate drought tolerance of potato genotypes. In Journal of American Society of Horticultural Science, vol. 116, 1991, pp. 412–415.]Search in Google Scholar
[STREET, K. – HAMILTON, R.S. – TAY, D. – TABA, S. – MACKAY, M. 2009. Mining germplasm banks for photosynthetic improvement-wheat, rice, potato, legumes and maize. In Applying photosynthesis research to improvement of food crops. (eds.) Gready, Jill E. – Dwyer, Simon A. – Evans, John R. Proceedings of a workshop held at the Australian National University, Canberra, Australian Capital Territory, Australia, 2–4 September 2009, pp. 112–129.]Search in Google Scholar
[TREHAN, S.P. – SINGH, B.P. 2013. Nutrient efficiency of different crop species and potato varieties in Retrospect and prospect. In Potato Journal, vol. 40, 2013, no. 1, pp. 1–21.]Search in Google Scholar
[VINCENTE, M.H. – ZSÖGÖN, A. – LOPODESÁ, A.F. – RIBEIRO, R.V. – PERES, L.E.E.P. 2015. Semi-determinate growth habit adjusts the vegetative-to-reproductive balance and increases productivity and water-use efficiency in tomato (Solanum lycopersicum). In Journal of Plant Physiology, vol. 177, 2015, pp. 11–19.]Search in Google Scholar
[VOS, J. – GROENWOLD, J. 1988. Mean annual yield reductions of potatoes due to water deficits for Dutch weather conditions. In Acta Horticulturae, vol. 214, 1988, pp. 61–70.]Search in Google Scholar
[VOS, J. – HAVERKORT, A.J. 2007. Water availability and potato crop performance. In Potato biology and biotechnology: Advances and perspectives. ed. Vreugdenhil, D. – Bradshaw, J. – GEBHARDT, C. – GOVERS, F. – TAYLOR, M. A. – MACKERRON, D.K.L. – ROSS, H. A. Amsterdam : Elsevier, 2007, pp. 333–351.]Search in Google Scholar
[VOS, J. – OYARZUN, P.J. 1987. Photosynthesis and stomatal conductance of potato leaves – effects of leaf age, irradiance and leaf water potential. In Photosynthesis Research, vol. 11, 1987, pp. 253–264.]Search in Google Scholar
[VOSE, J.M. – RYAN, M.G. 2002. Seasonal respiration of foliage, fine roots, and woody tissues in relation to growth, tissue N, and photosynthesis. In Global Change Biology, vol. 8, 2002, pp. 182–193.]Search in Google Scholar
[WALL, G.W. – GARCIA, R.L. – KIMBALL, B.A. – HUNSAKER, D.J. – PINTER, P.J. JR. – LONG, S.P. – OSBORNE, C.P. – HENDRIX, D.L. – WECHSUNG, F. – WECHSUNG, G. – LEAVITT, S.W. – LAMORTE, R.L. – IDSO, S.B. 2006. Interactive effects of elevated carbon dioxide and drought on wheat. In Agronomy Journal, vol. 98, 2006, pp. 354–381.]Search in Google Scholar
[WISHART, J.T.S. – GEORGE, L.K. – BROWN, J.A. – THOMPSON, G. – RAMSAY, J.E. – BRADSHAW, P.J. – WHITE, P.J. – GREGORY. 2009. Variation in rooting habit of potatoes: potential for improving resource capture. In International Symposium “Root Research and Applications, RootRAP, Boku – Vienna, Austria, 2–4 September 2009, pp.1–4.]Search in Google Scholar
[WINKLER, E. 1971. Potato cultivation in Tyrol. II. Photosynthetic efficiency and respiration in different potato varieties. In Potato Research, vol. 14, 1971, pp. 1–18.]Search in Google Scholar
[YAN, H. – KANG, M. – DE REFFYE, P. – DINGKUHN, M. 2004.A dynamic, architectural plant model simulating resource-dependent growth. In Annals of Botany, vol. 93, 2004, pp. 591–602.]Search in Google Scholar
[YOU, L. – ROSEGRANT, M.W. – WOOD, S. – SUN, D. 2009. Impact of growing season temperature on wheat productivity in China. In Agricultural Meteorology, vol. 149, 2009, pp. 1009–1014.]Search in Google Scholar
