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Journal of Plant Nutrition Volume 39, 2016 - Issue 1
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ARTICLES

Influence of stage of development in the efficiency of nitrogen fertilization on poplar

Berta LasaDepartamento Ciencias del Medio Natural, Universidad Pública de Navarra, Pamplona, SpainCorrespondence[email protected]
,
Ivan JaureguiDepartamento Ciencias del Medio Natural, Universidad Pública de Navarra, Pamplona, Spain
,
Iker AranjueloInstituto de Agrobiotecnología (IdAB), UPNa-CSIC-GN, Mutilva Baja, Spain
,
Sandra SakalauskieneVytautas Magnus University, Kaunas, Lithuania
&
Pedro M. Aparicio-TejoDepartamento Ciencias del Medio Natural, Universidad Pública de Navarra, Pamplona, Spain
Pages 87-98 | Received 06 Feb 2013, Accepted 17 Dec 2013, Published online: 04 Jan 2016

References

  • Annicchiarico, P., L. Pecetti, A. Abdelguerfi, A. Bouizgaren, A. M. Carroni, T. Hayek, M. M. Bouzina, and M. Mezni. 2011. Adaptation of landrace and variety germplasm and selection strategies for lucerne in the Mediterranean basin. Field Crop Research 120: 283–291.
  • Aranjuelo, I., L. Cabrera-Bosquet, J. L. Araus, and S. Nogues. 2013. Carbon and nitrogen partitioning during the post-anthesis period is conditioned by N fertilization and sink strength in three cereals. Plant Biology 15: 135–143.
  • Aranjuelo, I., J. J. Irigoyen, S. Nogués, and M. Sánchez-Díaz. 2009. Elevated CO2 and water-availability effect on gas exchange and nodule development in N2-fixing alfalfa plants. Environmental and Experimental Botany 65: 18–26.
  • Ariz, I., C. Cruz, J. F. Moran, M. B. Gonzalez-Moro, C. Garcia-Olaverri, C. Gonzalez-Murua, M. A. Martins-Louçao, and P. M. Aparicio-Tejo. 2011. Depletion of the heaviest stable N isotope is associated with NH4+/NH3 toxicity in NH4+-fed plants. BMC Plant Biology 11: 83.
  • Avice J. C., A. Ourry, G. Lemaire, and J. Boucaud. 1996. Nitrogen and carbon flows estimated by 15N and 13C pulse-chase labeling during regrowth of Alfalfa. Plant Physiology 112: 281–290.
  • Baptist, F., G. Tcherkez, S. Aubert, J. Pontailler, P. Choler, and S. Nogués. 2009. 13C and 15N allocations of two alpine species from early and late snowmelt locations reflect their different growth strategies. Journal of Experimental Botany 60: 2725–2735.
  • Black, B. L., L. H. Fuchigami, and G. D. Coleman. 2002. Partitioning of nitrate assimilation among leaves, stems and roots of poplar. Tree Physiology 22: 717–724.
  • Camm, E. 1993. Photosynthetic responses in developing and year old Douglas-fir needles during new shoot development. Tree Ecology and Preservation 8: 61–66.
  • Cernusak, L. A., G. Tcherkez, C. Keitel, W. K. Cornwell, L. S. Santiago, A. Knohl, M. M. Barbour, D. G. Williams, P. B. Reich, D. S. Ellsworth, T. E. Dawson, H. G. Griffiths, G. D. Farquhar, and I. J. Wright. 2009. Why are non-photosynthetic tissues generally 13C enriched compared with leaves in C3 plants? Review and synthesis of current hypotheses. Functional Plant Biology 36: 199–213.
  • Chapin, I., E. S. Schulze, and H. A. Mooney. 1990. The ecology and economics of storage in plants. Annual Review of Ecology and Systematics 21: 423–447.
  • Cheng, L., F. Ma, and D. Ranwala. 2004. Nitrogen storage and its interaction with carbohydrates of young apple trees in response to nitrogen supply. Tree Physiology 24: 91–98.
  • Christersson, L. 2006. Biomass production of intensively grown poplars in the southernmost part of Sweden: Observations of characters, traits and growth potential. Biomass & Bioenergy 3: 497–508.
  • Coleman, M. D., R. E. Dickson, and J. G. Isebrands. 1998. Growth and physiology of aspen supplied with different fertilizer addition rates. Physiologia Plantarum 103: 513–526.
  • Coleman, M., D. Tolsted, T. Nichols, W. D. Johnson, E. G. Wene, and T. Houghtaling. 2006. Post-establishment fertilization of Minnesota hybrid poplar plantations. Biomass & Bioenergy 30: 740–749.
  • Cooke, J. E. K., T. A. Martin, and J. M. Davis. 2005. Short-term physiological and developmental responses to nitrogen availability in hybrid poplar. New Phytologist 167: 41–52.
  • El Bassam, N. 1998. Energy Plant Species. Their Use and Impact on Environment and Development. London: James & James. Evans, J. R., and J. R. Seemann. 1989. The allocation of protein nitrogen in the photosynthetic apparatus: Costs, consequences, and control. In: Photosynthesis, ed. W. R. Biggs, pp. XX–XX. XXXX: Alan R. Liss Press.
  • Farquhar, G. D., and R. A. Richards. 1984. Isotopic composition of plant carbon correlates with water-use efficiency of wheat genotypes. Australian Journal of Plant Physiology 11: 539–552.
  • Feigenbaum, S., H. Bielorai, Y. Erner, and S. Dasberg. 1987. The fate of 15N labelled nitrogen applied to mature citrus trees. Plant and Soil 97: 179–187.
  • Ferrario-Mery, S., M. H. Valadier, and C. H. Foyer. 1998. Overexpression of nitrate reductase in tobacco delays drought-induced decreases in nitrate reductase activity and mRNA. Plant Physiology 117: 293–302.
  • Grassi, G., P. Millard, R. Wendler, G. Minotta, and M. Tagliavini. 2002. Measurement of xylem sap amino acid concentrations in conjunction with whole-tree transpiration estimates spring N remobilization by cherry (Prunus avium L.) trees. Plant, Cell & Environment 25: 1689–1699.
  • Grelet, G., I. Alexander, P. Millard, and M. Proe. 2003. Does morphology or the size of the internal N store determine how Vaccinium spp respond to spring N supply? Functional Ecology 17: 690–699.
  • Hansen, E. A., A. R. McLaughlin, and P. E. Pope. 1988. Biomass and nitrogen dynamics of hybrid poplar on two different soils: implications for fertilization strategy. Canadian Journal of Forest Research 18: 223–230.
  • Heilman, P. E., G. Ekuan, and D. Fogle. 1994. First-order root development from cuttings of Populus trichocarpa x Populus deltoides hybrids. Tree Physiology 14: 911–920.
  • Hofmann-Schielle, C., A. Jug, F. Makeschin, and K. E. Rehfuess. 1999. Short-rotation plantations of balsam poplars, aspen and willows on former arable land in the Federal Republic of Germany. I. Site-growth relationships. Forest Ecology and Management 121: 41–55.
  • Hodges, M. 2002. Enzyme redundancy and the importante of 2-oxoglutarate in plant ammonium assimilation. Journal of Experimental Botany 53: 905–917.
  • Ibrahim, L., M. F. Proe, and A. D. Cameron. 1998. Interactive effects of nitrogen and water availabilities on gas exchange and whole-plant carbon allocation in poplar. Tree Physiology 18: 481–487.
  • Irving, L., and D. Robinson. 2006. On modelling Rubisco turnover: Dynamics and applicability. New Phytologist 170: 204–205.
  • Jug, A., C. Hofmann–Schielle, F. Makeschin, K. E. Rehfuess. 1999. Short-rotation plantations of balsam poplars, aspen and willows on former arable in the Federal Republic of Germany. II. Nutritional Status and bioelement export by harvested shoot axes. Forest Ecology and Management 121: 67–83.
  • Kern, J., H. J. Hellebrand, V. Scholz, and B. Linke. 2010. Assessment of nitrogen fertilization for the CO2 balance during the production of poplar and rye. Renewable & Sustainable Energy Reviews 14: 1453–1460.
  • Kichey, T., B. Hirel, E. Heumez, F. Dubois, and J. Le Gouis. 2007. In winter wheat (Triticum aestivum L.), post-anthesis nitrogen uptake and remobilisation to the grain correlates with agronomic traits and nitrogen physiological markers. Field Crop Research 102: 22–32.
  • Kopp, R. F., and L. P. Abrahamson. 2001. Willow biomass production during ten successive annual harvests. Biomass & Bioenergy 20: 1–7.
  • Lars, R. 2002. Nutrient content in stems of hybrid aspen as affected by tree age and tree size, and nutrient removal with harvest. Biomass & Bioenergy 23: 13–25.
  • Liu, Z., and D. I. Dickmann. 1992. Responses of two hybrid Populus clones to flooding, drought, and nitrogen availability. I. Morphology and growth. Canadian Journal of Botany 70: 2265–2270.
  • Malaguti, D., P. Millard, R. Wendler, A. Hepburn, and M. Tagliavini. 2001. Translocation of amino acids in the xylem of apple (Malus domestica Borkh.) trees in spring as a consequence of both N remobilization and root uptake. Journal of Experimental Botany 52: 1665–1671.
  • Manzone, M., G. Airoldi, and P. Balsari. 2009. Energetic and economic evaluation of a poplar cultivation for the biomass production in Italy. Biomass & Bioenergy 33: 1258–1264.
  • Martínez-Alcántara, B., A. Quiñones, E. Primo-Millo, and F. Legaz. 2011. Nitrogen remobilization response to current supply in young citrus trees. Plant and Soil 342: 433–443.
  • Masclaux-Daubresse, C., M. Reisdorf-Cren, and M. Orsel. 2008. Leaf nitrogen remobilisation for plant development and grain filling. Plant Biology 10: 23–36.
  • Millard, P. 1996. Ecophysiology of the internal cycling of nitrogen for tree growth. Zeitschrift Pflanzenernährung und Bodenkunde 159: 1–10.
  • Millard, P., M. Sommerkorn, and G. A. Grelet. 2007. Environmental change and carbon limitation in trees: A biochemical, ecophysiological and ecosystem appraisal. New Phytologist 175: 11–28.
  • Millard, P., R. Wendler, G. Grassi, G. A. Grelet, and M. Tagliavini. 2006. Translocation of nitrogen in the xylem of field-grown cherry and poplar trees during remobilization. Tree Physiology 26: 527–536.
  • Miller, H. G. 1995. The influence of stand development on nutrient demand, growth and allocation. Plant and Soil 16: 225–232.
  • Min, X., M. Y. Siddiqi, R. D. Guy, D. M. Glass, and H. J. Kronzucker. 1998. Induction of nitrate uptake and nitrate reductase activity in trembling aspen and lodgepole pine. Plant, Cell and Environment 21: 1039–1046.
  • Nambiar, E. K. S., and D. N. Fife. 1987. Growth and nutrient retranslocation in needles of radiata pine in relation to nitrogen supply. Annals of Botany 60: 147–156.
  • Qian, J. H., J. W. Doran, K. L. Weier, A. R. Mosier, T. A. Peterson, and J. F. Power. 1997. Soil denitrification and nitrous oxide losses under corn irrigated with high-nitrate groundwater. Journal of Environmental Quality 26: 348–360.
  • Rossato, L, J. H. MacDuff, P. Laine, E. Le Deunff, and A. Ourry. 2002. Nitrogen storage and remobilization in Brassica napus L. during the growth cycle: Effects of methyl jasmonate on nitrate uptake, senescence, growth, and VSP accumulation. Journal of Experimental Botany 53: 1131–1141.
  • Sanchez, E. E., T. L. Righetti, D. Sugar, and P. B. Lombard. 1991. Recycling of nitrogen in field-grown ‘Comice’ pears. Journal of Horticultural Science 66: 479–486.
  • Schiltz, S., N. Munier-Jolain, C. Jeudy, J. Burstin, and C. Salon. 2005. Dynamics of exogenous nitrogen partitioning and nitrogen remobilization from vegetative organs in pea revealed by 15N in vivo labelling throughout seed filling. Plant Physiology 137: 1463–1473.
  • Sixto, H., M. J. Hernandez, M. Barrio, J. Carrasco, and I. Cañellas. 2007. Populus genus for the biomass production for energy use: A review. Investigación Agraria: Sistemas y Recursos Forestales 16: 277–294.
  • Stanturf, J. A., C. van Oosten, D. A. Netzer, M. D. Coleman, and C. J. Portwood. 2001. Ecology and silviculture of poplar plantations. In: Poplar Culture in North America, eds. D. I. Dickmann, J. G. Isebrands, J. E. Eckenwalder, and J. Richardson, pp. 153–206. Ottawa: National Research Council of Canada Research Press.
  • Ta, C. T., and R. T. Wiland. 1992. Nitrogen partitioning in maize during ear development. Crop Science 32: 443–451.
  • Tagliavini, M., and P. Millard. 2005. Fluxes of nitrogen within deciduous fruit trees. Acta Scientiarum Polonorum Hortorum Cultus 4: 21–30.
  • Tagliavini, M., M. Quartieri, and P. Millard. 1997. Remobilized nitrogen and root uptake of nitrate for spring leaf growth, flowers and developing fruits of pear (Pyrus communis L.) trees. Plant and Soil 195: 137–142.
  • Thitithanakul, S., G. Ṕtel, M. Chalot, and F. Beaujard. 2012. Supplying nitrate before bud break induces pronounced changes in nitrogen nutrition and growth of young poplars. Functional Plant Biology 39: 795–803.
  • Van Den Driessche, R., B. R. Thomas, and D. P. Kamelchuk. 2008. Effects of N, NP, and NPKS fertilizers applied to four-year old hybrid poplar plantations. New Forests 35: 221–233
  • Wallenstein, M. D., S. McNulty, I. J. Fernandez, J. Boggs, and W. H. Schlesinger. 2006. Nitrogen fertilization decreases forest soil fungal and bacterial biomass in three long-term experiments. Forest Ecology and Management 222: 459–468.
  • Yousfi, S., M. D. Serret, and J. L. Araus. 2009. Shoot δ15N gives a better indication than ion concentration or Δ13C of genotypic differences in the response of durum wheat to salinity. Functional Plant Biology 36: 144–155.
  • Yousfi, S., M. D. Serret, A. J. Márquez, J. Voltas, and J. L. Araus. 2012. Combined use of δ13C, δ18O and δ15N tracks nitrogen metabolism and genotypic adaptation of durum wheat to salinity and water deficit. New Phytologist 194: 230–244.

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