Abstract
The application of phosphorus (P) to soil can increase its availability to plants and alter P fractions in annual and perennial organs of Cordia trichotoma. If a portion of P accumulates in perennial organs in organic fractions it can be used in the next growth season, possibly decreasing plant dependence on P derived from soil fertilization. However, if P is preferentially accumulated in inorganic fractions in annual organs, plants will be more dependent on phosphate fertilization. This study aimed to evaluate the distribution of P fractions in organs of C. trichotoma grown on sandy soil treated with 120 and 360 kg P2O5 ha−1. The control was a zero application. After 24 months following fertilization, C. trichotoma seedlings were cut and separated into leaves, branches, stems and roots, dried, ground and subjected to chemical fractionation of P, which estimates fractions of total soluble P, soluble inorganic and organic P, lipid P, P associated ribonucleic acid and deoxyribonucleic acid, and residual P. P in annual organs, as leaves, accumulated preferentially in the soluble inorganic fraction in both treatments. In perennial organs such as stems and branches, P accumulated preferentially in the soluble organic fraction. The application of 300% of the recommended dosage (360 kg P2O5 ha−1) promoted the accumulation of P in soluble organic fractions which may contribute to annual growth the following season and be a strategy to reduce the dependence of 2-year-old stands on soil-derived P and on fertilizers.
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References
Berghetti ÁLP, Araujo MM, Bovolini MP, Tonetto TDS, Muniz MFB (2015) Seedling morphology and control of pathogens in seeds of Cordia trichotoma. Florest Amb 22:99–106
Berghetti ÁLP, Araujo MM, da Silva Tonetto TI, Aimi SC, Navroski MC, Turchetto F, Zavistanovicz TC (2016) Growth of Cordia trichotoma seedlings in different sizes of recipients and doses of fertilizer. Afr J Agric Res 11:2450–2455
Bieleski RL (1973) Phosphate pools, phosphate transport, and phosphate availability. Annu RevPlant Physiol 24:225–252
Borém RAT, Ramos DP (2002) Variação estacional e topográfica de nutrientes na serapilheira de um fragmento de Mata Atlântica. Cerne 8:42–59
Bortoluzzi EC, Pérez CA, Ardisson JD, Tiecher T, Caner L (2015) Occurrence of iron and aluminum sesquioxides and their implications for the P sorption in subtropical soils. Appl Clay Sci 104:196–204
Cadorin DA, Malavasi UC, Coutinho PWR, Dranski JAL, Malavasi MDM (2015) Methyl jasmonate and stem bending, hardening and initial growth of Cordia trichotoma seedlings. Cerne 21:657–664
Carnevali NHDS, Marchetti ME, Vieira MDC, Carnevali TDO, Ramos DD (2016) Eficiência nutricional de mudas de Stryphnodendron polyphyllum em função de nitrogênio e fósforo. Cienc Florest 26:449–461
Carvalho PER (2003) Espécies arbóreas brasileiras, 1st edn. Academic Press, Brasília
Casali CA, Kaminski J, Piccin R, Arbugeri FE, Doneda A (2011) A mineralização das formas de fósforo do tecido de plantas de cobertura. Inform Agron 135:21–24
Chapin FS, Bieleski RL (1982) Mild phosphorus stress in barley and a related low-phosphorus-adapted barley grass: phosphorus fractions and phosphate absorption in relation to growth. Physiol Plant 54:309–317
CQFS RS/SC (2004) Comissão, de química e fertilidade do solo. Manual de adubação e calagem para os Estados do Rio Grande do Sul e de Santa Catarina. 10 Ed. Porto Alegre, RS, Brazil: Sociedade Brasileira de Ciência do Solo, p 400
Da Ros CO, Rex FE, Ribeiro IR, Kafer PS, Rodrigues AC, da Silva RF, Somavilla L (2015) Uso de substrato compostado na produção de mudas de Eucalyptus dunnii e Cordia trichotoma. Florest Amb 22:549–558
Embrapa (2013) Sistema Brasileiro de Classificação de Solos, 3rd edn. Embrapa, Brasília, p 353
Fink JR, Inda AV, Bayer C, Torrent J, Barrón V (2014) Mineralogy and phosphorus adsorption in soils of south and central-west Brazil under conventional and no-tillage systems. Acta Sci-Agron 36:379–387
Fink JR, Inda AV, Bavaresco J, Barrón V, Torrent J, Bayer C (2016) Adsorption and desorption of phosphorus in subtropical soils as affected by management system and mineralogy. Soil Tillage Res 155:62–68
Freitas ECSD, Paiva HND, Leite HG, Oliveira Neto SND (2017) Effect of phosphate fertilization and base saturation of substrate on the seedlings growth and quality of Plathymenia foliolosa Benth. Rev Árvore 41:1–9
Hothorn T, Bretz F, Westfall P (2008) Simultaneous inference in general parametric models. Biom J 50:346–363
Lambers H, Finnegan PM, Laliberté E, Pearse SJ, Ryan MH, Shane MW, Veneklaas EJ (2011) Phosphorus nutrition of Proteaceae in severely phosphorus-impoverished soils: Are there lessons to be learned for future crops? Plant Physiol 156:1058–1066
Lima R, Severino LS, Cazetta JO, de Azevedo CA, Sofiatti V, Arriel NH (2011) Redistribuição de nutrientes em folhas de pinhão-manso entre estádios fenológicos. Rev Bras Eng Agr Amb 11:1175–1179
Machado GG, Pastorini LH, Souza LA, Barbeiro C, Santos LS (2016) Germinação de diásporos e crescimento inicial de Cordia trichotoma (Vell.) Arrab. Ex Steud. (Boraginaceae). Iheringia Ser Bot 70:279–286
Marschner H (2012) Mineral nutrition of higher plants, 3rd edn. Elsevier, London, p 889
Martinez HEP, Novais RF, Rodrigues LA, Sacramento LVSD (2005) Phosphate forms in plant and their internal buffering in five soybean cultivars. Rev Bras Cienc Solo 29:249–257
Miyachi S, Tamiya H (1961) Distribution and turnover of phosphate compounds in growing chlorella cells. Plant Cell Physiol 2:405–414
Murphy J, Riley JP (1962) A modified single solution methods for the determination of phosphate in natural waters. Anal Chim Acta 27:31–36
Niklas JK (2006) Plant allometry, leaf nitrogen and phosphorus stoichiometry, and interspecific trends in annual growth rates. Ann Bot 9:155–163
Niu F, Zhang D, Li Z, Van Iersel MW, Alem P (2015) Morphological response of Eucalyptus seedlings to phosphorus supply through hydroponic system. Sci Hortic 194:295–303
Noack SR, McLaughlin MJ, Smernik RJ, McBeath TM, Armstrong RD (2014) Phosphorus speciation in mature wheat and canola plants as affected by phosphorus supply. Plant Soil 378:125–137
Oliveira RAD, Comin JJ, Tiecher T, Piccin R, Somavilla LM, Loss A, Lourenzi CR, Kurtz C, Brunetto G (2017) Release of phosphorus forms from cover crop residues in agroecological no-till onion production. Rev Bras Cienc Solo 41:1–16
Pereira JM, Cambraia J, Júnior EMF, Ribeiro C (2008) Efeito do alumínio sobre a absorção, o acúmulo e o fracionamento do fósforo em sorgo. Bragantia 67:961–967
Piccin R, Couto RDR, Bellinaso RJS, Gatiboni LC, Conti LD, Rodrigues LAT, Michelon LS, Kulmann MSS, Brunetto G (2017a) Phosphorus forms in leaves and their relationships with must composition and yield in grapevines. Pesqui Agropecu Bras 52:319–327
Piccin R, Kaminski J, Ceretta CA, Tiecher T, Gatiboni LC, Bellinaso RJS, Marchezan C, Souza ROS, Brunetto G (2017b) Distribution and redistribution of phosphorus forms in grapevines. Sci Hortic 218:125–131
Pinheiro J, Bates D, DebRoy S, Sarka D, R Core Team (2014) Nlme: linear and nonlinear mixed effects models. R Found Stat Comput 3:1–118
R Core Team (2017) R: a language and environment for statistical computing. https://www.r-project.org/
Reef R, Ball MC, Feller IC, Lovelock CE (2010) Relationship between RNA: DNA ratio, growth and elemental stoichiometry in mangrove trees. Funct Ecol 24:1064–1072
Rossa ÜB, Angelo AC, Bognola IA, Westphalen DJ, Milani JE (2015) Fertilizante de liberação lenta no desenvolvimento de mudas de Eucalyptus grandis. Rev Floresta 45:85–96
Santos JZL, Resende ÁV, Neto AEF, Corte EF (2008) Crescimento, acúmulo de fósforo e frações fosfatadas em mudas de sete espécies arbóreas nativas. Rev Árvore 32:799–807
Sartoretto LM, Rossi E (2014) Caracterização de três espécies florestais de importância econômica. Unoesc Cienc-Acet 5:145–152
Silveira RLVA, Gava JL (2004). Nutrição e adubação fosfatada em eucalipto. In: Yamada T, Abdalla SRS. Fósforo na agricultura brasileira. 2. Ed. Piracicaba, SP, Brazil: Associação brasileira para pesquisa da potassa e do fosfato, pp 495–536
Staff, Soil Survey (2010) Keys to soil taxonomy, 12th edn. Department of Agriculture, Soil Conservation Service, Washington, DC, p 360
Stahl J, Ernani PR, Gatiboni LC, Chaves DM, Neves CU (2013) Produção de massa seca e eficiência nutricional de clones de Eucalyptus dunnii e Eucalyptus benthamii em função da adição de doses de fósforo ao solo. Cienc Florest 23:287–295
Suzuki Y, Makino A, Mae T (2001) An efficient method for extraction of RNA from rice leaves at different ages using benzyl chloride. J Exp Bot 52:1575–1579
Tagliavini M, Baldi E, Lucchi P, Antonelli M, Sorrenti G, Baruzzi G, Faedi W (2005) Dynamics of nutrients uptake by strawberry plants (Fragaria × ananassa Dutch.) grown in soil and soilless culture. Eur J Agron 23:15–25
Taiz L, Zeiger E (2013) Fisiologia Vegetal, 5th edn. Artmed, Porto Alegre, p 954
Taiz L, Zeiger E, Møller IM, Murphy A (2017) Fisiologia e desenvolvimento vegetal, 6th edn. Artmed, Porto Alegre, p 858
Tedesco MJ, Gianello C, Bissani CA, Bohnen H, Volkweiss SJ (1995) Análise de solo, plantas e outros materiais. Departamento de solos, Universidade Federal do Rio Grande do Sul, Porto Alegre
Ter Braak CJ, Smilauer P (2002). CANOCO Reference manual and CanoDraw for windows user’s guide: software for Canonical Community Ordination (version 4.5). www.canoco.com
Thomas H, Sadras V (2001) The capture and gratuitous disposal of resources by plants. Funct Ecol 15:3–12
Valadares SV, da Silva LF, Valadares RV, Fernandes LA, Neves JCL, Sampaio RA (2015) Plasticidade fenotípica e frações fosfatadas em espécies florestais como resposta à aplicação de fósforo. Rev Árvore 39:225–232
Veneklaas EJ, Lambers H, Bragg J, Finnegan PM, Lovelock CE, Plaxton WC, Price CA, Scheible WR, Shane MW, White PJ, Raven JA (2012) Opportunities for improving phosphorus-use efficiency in crop plants. New Phytol 95:306–320
Williams LE (1987) Growth of ‘Thompson seedless’ grapevines: II. Nitrogen distribution. J Am Soc Hortic Sci 112:330–333
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Kulmann, M.S.S., Stefanello, L.O.S., Schwalbert, R.A. et al. Effects of phosphorus fertilizer application on phosphorus fractions in different organs of Cordia trichotoma. J. For. Res. 32, 725–732 (2021). https://doi.org/10.1007/s11676-020-01136-4
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DOI: https://doi.org/10.1007/s11676-020-01136-4