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Liming and Phosphating in Dalbergia nigra (Vell.) Allemão ex Benth. Seedlings

ABSTRACT

This study aimed to verify the effect of phosphorus and liming doses on the morphological and nutritional characteristics of D. nigra seedlings. The experiment was conducted using a completely randomized 4x4 factorial design. The treatments consisted of 4 levels of liming and 4 phosphorus doses. Morphological characteristics and nutritional analyses of plants were measured. There were no significant interactions between liming x P. Morphological characteristics presented differences for liming and phosphorus when analyzed separately. The best productive performances were found between an increase in base saturation between 48.07% and 54.76%. Morphological characteristics showed a linear behavior for P. Both the application of liming and P promoted positive effects on D. nigra growth.

Keywords:
seedling quality; forest nutrition; jacarandá-da-bahia

1. INTRODUCTION

Bahia rosewood (Dalbergia nigra (Vell.) Allemão ex Benth.) is a Fabaceae classified as late secondary, naturally occurring in low fertility soils in regions of the Atlantic Forest. It presents moderate to rapid growth under adequate growth conditions. Its wood is of good quality, with a pleasant appearance and is recommended for making luxury furniture. The species can be used for landscaping of public squares, parks and avenues, and it is recommended for soil recovery, for performing biological nitrogen fixation, depositing a reasonable layer of leaves and presenting a wide range of environmental tolerance ( Carvalho, 2003 Carvalho PER. Espécies arbóreas brasileiras. Brasília: EMBRAPA Informação Tecnológica; Colombo: Embrapa Florestas; 2003. ).

Several studies with forest species have demonstrated that the fertilization of several species improves the productivity, quality and establishment of forest plantations. However, considering the great diversity in Brazil, scientific studies on nutritional requirements of native forest species are still scarce.

One way to assess nutritional requirements would be to determine optimal fertilization rates for the various soil types. In this context, Macedo & Teixeira (2012) Macedo ST, Teixeira PC. Calagem e adubação fosfatada para formação de mudas de araçá-boi. Acta Amazonica 2012; 42(3): 405-412. http://dx.doi.org/10.1590/S0044-59672012000300013.
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and Silva et al. (2011) Silva TAF, Tucci CAF, Santos JZL, Batista IMP, Miranda JF, Souza MM. Calagem e adubação fofatada para a produção de mudas de Swietenia macrophilla. Floresta 2011; 41(3): 459-470. http://dx.doi.org/10.5380/rf.v41i3.23992.
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studied saturation by bases and P doses for araçá-boi (Eugenia stipitata ) and mahogany seedlings (Swietenia macrophilla) respectively, and the species showed positive responses to the use of these fertilizers. Bernardino et al. (2007) Bernardino DCS, Paiva HN, Neves JCL, Gomes JM, Marques VB. Influência da saturação por bases e da relação Ca:Mg do substrato sobre o crescimento inicial de jacarandá da Bahia (Dalbergia nigra) Vell. FR. All. Ex Benth). Revista Árvore 2007; 31(4): 567-573. http://dx.doi.org/10.1590/S0100-67622007000400001.
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showed that a Ca:Mg ratio for Latosol of 4:1 presented superior results in height, diameter, and dry matter for D. nigra.

The development of silvicultural techniques for wood species such as jacaranda-da-bahia ( Dalbergia nigra) is necessary given the intense exploitation that has occurred throughout national history, driving its population to low levels. Therefore, one solution is to learn about the forestry of these species. There is a need to improve technology for growing forest species seedlings, and within this context knowledge about the nutritional demands of the species used for these purposes and others is of fundamental importance ( Fernandes et al., 2000 Fernandes LA, Furtini AE No, Fonseca FC, Vale FR. Crescimento inicial, níveis críticos de fósforo e frações fosfatadas em espécies florestais. Pesquisa Agropecuária Brasileira 2000; 35(6): 1191-1198. http://dx.doi.org/10.1590/S0100-204X2000000600016.
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). In this sense, this study aimed to verify the effect of phosphorus and liming doses on the morphological and nutritional characteristics of D. nigra seedlings in a greenhouse, using a Dystrophic Red Latosol/typic haplustox soil as substrate.

2. MATERIAL AND METHODS

The study was conducted under controlled conditions in the Department of Forestry Sciences of the Federal University of Lavras-UFLA and lasted 8 months. A Dystrophic Red Latosol/typic haplustox soil of low natural fertility was used as substrate. The soil was collected from the municipality of Lavras, MG, at a depth of 20 to 40 cm, avoiding the fertile soil layer that could mask the effect of fertilizers. The soil was air-dried and sieved using 2 mm mesh sieves, and a sample was then taken for physical and chemical analysis. Next, 4.5 dm3 of soil were deposited in pots with a capacity of 4.8 dm3, then the appropriate soil liming was performed at that moment and incubated for a period of twenty days for the fertilizer to react with the soil. Solutions containing the other treatments were then applied after the incubation period, and the pots had their bottoms sealed to prevent nutrient loss. Finally, soil samples were taken after fertilization of the treatments to verify their efficacy.

The experimental design was completely randomized in a factorial scheme with four levels of liming and four P doses of four replications. The liming treatments were as follows: 1) natural base saturation (V%) of the soil (23.2%) (meaning without liming); 2) dose for V (%) elevation to 45%, or application of 0.52 tons per hectare; 3) dose for V (%) elevation to 65%, or application of 1 ton per hectare; 4) dose for V (%) elevation to 85%, or application of 1.6 tons per hectare. The phosphorus treatments (P) were: 0, 100, 300 and 500 mg kg-1.

Soil remediation was calculated based on CaCO3 and then applied in a Ca:Mg ratio of 4:1 using CaCO3 and MgO as sources. MAP, and H3PO4 were used as sources of P, and N was balanced using urea so that the doses were equivalent. The nutrients were calculated based on the basic fertilization of each treatment, and applied as described by Carlos et al. (2015) Carlos LC, Venturin N, Farias ES, Venturin RP, Macedo RLG. Growth and mineral nutrition in seedlings of jacarandá-da-bahia subjected to nutrient deprivation. Floresta 2015; 45(1): 107-116. http://dx.doi.org/10.5380/rf.v45i1.34312.
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: 180 mg kg-1 of N; 150 mg kg-1 of K; 40 mg kg-1 of S; 1.33 mg kg-1 of Cu; 0.81 mg kg-1 of B; 4 mg kg-1 of Zn and 0.15 mg kg -1 of Mo.

Descriptive soil analyses were performed for all treatments consisting of: texture determination (Densimeter Method) and particle density (Volumetric Balloon Method). The chemical analyses were realized according to the following methods: pH (H2O - Ratio 1:2.5); organic matter (Walkley & Black method); P and K (HCl 0.05 molc L-1 + H2SO 4 0.025 molc L-1); Ca, Mg, Al and H + Al (extractor KCl 1 molc L-1 ); Zn, Cu, Fe and Mn (HCl 0.05 mol + H2SO4 0.25 mol L-1 ); S (Ca (H2PO4). H2 + 500 ppm P); B (hot water), according to Embrapa (1997) Empresa Brasileira de Pesquisa Agropecuária – EMBRAPA. Centro Nacional de Pesquisa de Solos. Ministério da Agricultura e do Abastecimento. Manual de métodos de análise de solo. 2. ed. Rio de Janeiro; 1997. .

These analyses were performed in the Laboratory of the Department of Soil Science of the Federal University of Lavras (UFLA), and the results are presented in Table 1 .

Table 1
Chemical and physical characteristics of the soil sample used for the production of Dalbergia nigra (Vell.) Fr. Allem seedlings (jacaranda-da-Bahia), collected from Lavras (UFLA) before and after fertilization.

Dalbergia nigra seeds were collected from the Rio Doce State Park, administered by the State Forest Institute of Minas Gerais. After collection, the seeds were taken to Lavras, benefited, and stored in a cold room. The seeds were germinated at the beginning of the experiment according to the methodology proposed by Andrade et al. (2006) Andrade ACS, Pereira TS, Fernandes MJ, Cruz APM, Carvalho ASR. Substrato, temperatura de germinação e desenvolvimento pós-seminal de sementes de Dalbergia nigra. Pesquisa Agropecuária Brasileira 2006; 41(3): 517-523. http://dx.doi.org/10.1590/S0100-204X2006000300020.
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, at constant temperatures between 20 and 30°C and using vermiculite as substrate. The seeds were then transplanted into the treatment pots after radicle protrusion with one seedling planted per pot.

Soil moisture was maintained around 60% of the total pore volume (TPV) throughout the experiment and checked daily by weighing and completing the weight with deionized water. The experiment was terminated after 240 days when the pots were disassembled and the roots separated from the soil by rinsing under running water, thus obtaining whole and individualized plants. The biometric characteristics and their relationships considered for evaluating the seedlings were: shoot height in centimeters (H); neck diameter in millimeters (D); shoot dry matter (DMS) and root dry matter (DMR) in grams; root dry mass and shoot dry mass (R/S); height/diameter (H/D) and Dickson quality index (DQI) ( Dickson et al., 1960 Dickson A, Leaf A, Hosner JF. Quality appraisal of white spruce and white pine seedling stock in nurseries. Forestry Chronicle 1960; 36(1): 10-13. http://dx.doi.org/10.5558/tfc36010-1.
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).

P contents were determined by colorimetry according to the nitric-perchloric extract, as well as Ca and Mg levels by atomic absorption spectrophotometry ( Malavolta et al., 1997 Malavolta E, Vitti GC, Oliveira SA. Avaliação do estado nutricional das plantas: princípios e aplicações. 2. ed. Piracicaba: Potafos; 1997. ).

Data were submitted to analysis of variance and Scott-Knott's test at 5% probability to compare the means between treatments according to Gomes (1985) Gomes FP. Curso de estatística experimental. 2. ed. São Paulo: Nobel; 1985. . Regression analyses were generated for the dose experiments in order to determine the dose with the best growth using the Sisvar 4.6 program ( Ferreira, 2011 Ferreira DF. Sisvar: a computer statistical analysis system. Ciência e Agrotecnologia 2011; 35(6): 1039-1042. http://dx.doi.org/10.1590/S1413-70542011000600001.
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). Charts and tables were generated by the Microsoft Excel 2003 program.

3. RESULTS AND DISCUSSION

3.1. Growth

The analysis of variance showed no significant interactions between liming and phosphorus for any variable studied at 5% significance. Macedo & Teixeira (2012) Macedo ST, Teixeira PC. Calagem e adubação fosfatada para formação de mudas de araçá-boi. Acta Amazonica 2012; 42(3): 405-412. http://dx.doi.org/10.1590/S0044-59672012000300013.
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found similar results to those of this study in studying the interaction of these same elements in araçá-boi (Eugenia stipitata), since the authors also found that there was no interaction between the variables.

On the other hand, the liming factor in this study showed differences at 5% significance for the variables of: diameter and height; shoot, root, and total dry matter; and Dickson quality index for the seedlings. Silva et al. (2008) Silva A, Tucci CAF, Lima HN, Souza PA, Venturin N. Efeitos de doses crescentes de calcário na produção de mudas de sumaúma (Ceiba pentandra L. Gaertn). Floresta 2008; 38(1): 295-302. also found similar results to those of this study in Sumaúma (Ceiba pentandra ), which is not uncommon considering that several other species respond to liming; among these being: cássia-verrugosa/senna (Senna multijuga ), ipê-mirim (Stenolobium stans), angico-do-cerrado ( Anadenathera falcata), and cedar (Cedrela fissilis) ( Furtini et al., 1999 Furtini AE No, Resende AV, Vale FR, Faquin V, Fernandes LA. Acidez do solo, crescimento e nutrição mineral de algumas espécies arbóreas, na fase de muda. Cerne 1999;5(2):1-12. ). Some other species are tolerant to acidity and do not respond to liming, with acacia ( Acacia auriculiformes) and jacarandá-branco (Platipodium elegans) being examples ( Mann et al., 1996 Mann EN, Furtini AE No, Resende AV, Vale FR, Fonseca FC. Calagem e crescimento de espécies florestais. In: Anais da Reunião Brasileira de Fertilidade do Solo e Nutrição de Plantas; 1996; Manaus. Manaus: Ed. da Universidade do Amazonas; 1996. p. 240-241. ).

The greatest diameter value in the liming experiment occurred in the base saturation of 51.76%, which is equivalent to 0.69 tons of limestone per hectare ( Figure 1 ). The height growth for D. nigra showed a similar trend as the diameter growth, although the highest growth was observed for base saturation of 48.07%, or 0.61 tons per hectare. Tucci et al. (2010) Tucci CAF, Lima HN, Gama AS, Costa HS, Souza PA. Efeitos de doses crescentes de calcário em solo Latossolo Amarelo na produção de mudas de pau-de-balsa ( Ochroma lagopus sw., Bombacaceae). Acta Amazonica 2010; 40(3): 543-548. http://dx.doi.org/10.1590/S0044-59672010000300013.
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corroborate the results obtained in this study, finding that limestone doses above 0.5 t ha -1 in balsa trees (Ochroma lagopus) increased base saturation to 40.21%. This is similar to what was observed in the present study, as limestone can contribute to increased growth of seedling height and stem diameter.

Figure 1
Diameter, height, total dry matter, shoot and root dry matter (TDM, DMS, DMR) and DQI for D. nigra seedlings of 240 days under different base saturations.

TDM, DMS and DMR data presented their highest values for the limestone doses required to bring base saturation to 53.64, 54.26 and 54.76%, respectively; or 0.75, 0.77 and 0.78 ton/ha ( Figure 1 ). Macedo & Teixeira (2012) Macedo ST, Teixeira PC. Calagem e adubação fosfatada para formação de mudas de araçá-boi. Acta Amazonica 2012; 42(3): 405-412. http://dx.doi.org/10.1590/S0044-59672012000300013.
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concluded that the addition of dolomitic limestone to the substrate influenced growth and dry matter production in araçá-boi (Eugenia stipitata ), showing that a dose equivalent to elevating the base saturation to 47.6% presented better seedling development. Gomes et al. (2008) Gomes KCO, Paiva HN, Neves JCL, Barros NF, Silva SR. Crescimento de mudas de garapa em resposta a calagem e ao fósforo. Revista Árvore 2008; 32(3): 387-394. http://dx.doi.org/10.1590/S0100-67622008000300001.
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recommend an increase of base saturation greater than (60%) for garapa (Apuleia leiocarpa), since the highest production of DMS was obtained at this level. In studying kapok (Ceiba pentandra), Silva et al. (2008) Silva A, Tucci CAF, Lima HN, Souza PA, Venturin N. Efeitos de doses crescentes de calcário na produção de mudas de sumaúma (Ceiba pentandra L. Gaertn). Floresta 2008; 38(1): 295-302. reported that liming favored all the evaluated characteristics except for R/S ratio. The same tendency was observed for D. nigra in this study, and the above-mentioned author comments that it can be assumed that the changes caused by liming do not affect root or shoot tissues differently.

A higher DQI for D. nigra was found in the limestone dose in elevating base saturation to 53.8%. Souza et al. (2010) Souza PH, Paiva HN, Neves JSL, Gomes JM, Marques LS. Crescimento e qualidade de mudas de Senna macranthera (Collad.) Irwin et Barn. em resposta à calagem. Revista Árvore 2010; 34(2): 233-240. http://dx.doi.org/10.1590/S0100-67622010000200005.
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found optimal DQI values in fedegoso (Senna macranthera) at baseline saturation of 70%, much higher than that of this study. On the other hand, Cruz et al. (2004) Cruz CAF, Paiva HN, Gomes KCO, Guerrero CRA. Efeito de diferentes níveis de saturação por bases no desenvolvimento e qualidade de mudas de ipê-roxo (Tabebuia impetiginosa (Mart.) Standley. Scientia Forestalis 2004; 66(1): 100-107. reported pink ipê (Tabebuia impetiginosa) seedlings with the best DQI for increasing base saturation, similar to that obtained in this study.

Therefore, limestone doses aiming to reach base saturation of 53.8% for D. nigra (which is equivalent to 735 kilos of limestone per hectare in the soil) obtained seedlings with better quality indexes. In this study, ideal V (%) results were found between 48 and 54, which are different from those found by Bernardino et al. (2007) Bernardino DCS, Paiva HN, Neves JCL, Gomes JM, Marques VB. Influência da saturação por bases e da relação Ca:Mg do substrato sobre o crescimento inicial de jacarandá da Bahia (Dalbergia nigra) Vell. FR. All. Ex Benth). Revista Árvore 2007; 31(4): 567-573. http://dx.doi.org/10.1590/S0100-67622007000400001.
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and Gonçalves et al. (2014) Gonçalves EO, Paiva HN, Neves JC, Klippel VH, Caldeira MVW. Crescimento de Dalbergia nigra (Vell.) Allemão ex Benth sob diferentes doses de cálcio, magnésio e enxofre. Revista Árvore 2014; 38(2): 251-260. http://dx.doi.org/10.1590/S0100-67622014000200005.
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, who found no response to liming of D. nigra in dystrophic Latosol, leading them to conclude that there is no need for liming for this species under these conditions. The explanation for this fact is possibly in the genetic material of origin, which in the case of this study came from a park and a reserve where there is greater conservation/genetic variability. Several germination studies have obtained results showing that seeds from different places may present different behaviors when submitted to the same treatments, as in the case with Ladeia et al. (2012) Ladeia ES, Coelho MF, Azevedo RAB, Albuquerque MCF. Procedência do fruto e substratos na germinação de sementes de Pseudobombax longiflorum (Mart. et Zucc.) A. Robyns. Pesquisa Agropecuária Tropical 2012; 42(2): 174-180. http://dx.doi.org/10.1590/S1983-40632012000200009.
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in studying Pseudobombax longiflorum.

Diameter, height, dry matter of the shoot and root, total dry matter and DQI presented increasing linear behavior in response of the phosphorus doses. Thus, the tested dose of 500 mg kg -1 presented the best performance in the seedlings ( Figure 2 ). Cruz et al. (2010) Cruz CAF, Paiva HN, Neves JCL, Cunha ACMCM. Resposta de mudas de Senna macranthera (Dc. Ex collad.) H.S. Irwin & Barnaby (Fedegoso) cultivadas em Latossolo vermelho-amarelo distrófico e macronutrientes. Revista Árvore 2010; 34(1): 13-24. http://dx.doi.org/10.1590/S0100-67622010000100002.
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found optimal doses of 416.23 mg kg-1 of phosphorus in Dystrophic Red Latosol/typic haplustox soil for Senna macranthera, which was inferior to the value found in this study. This indicates that some species require more phosphorus than others to develop. Phosphorus in the plant stimulates root growth and ensures vigorous growth ( Malavolta et al., 1997 Malavolta E, Vitti GC, Oliveira SA. Avaliação do estado nutricional das plantas: princípios e aplicações. 2. ed. Piracicaba: Potafos; 1997. ), as observed in this study. Chaves & Borges (2005) Chaves LFC, Borges CG. Eficiência micorrízica na produção de mudas de jacarandá-da-bahia cultivadas em diferentes doses de fósforo. Acta Scientiarum. Agronomy 2005; 27(4): 587-594. http://dx.doi.org/10.4025/actasciagron.v27i4.1303.
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also found increasing linear values for D. nigra not inoculated with mycorrhizae. Santos et al. (2008) Santos JZL, Resende AV, Furtini AE No, Corte EF. Crescimento, acúmulo de fósforo e frações fosfatadas em mudas de sete espécies arbóreas nativas. Revista Árvore 2008; 32(5): 799-807. http://dx.doi.org/10.1590/S0100-67622008000500003.
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reported that pioneer and climax species showed linear growth up to a dose of 800 mg kg -1 of P, being responsive to phosphorus application.

Figure 2
Diameter, height, total dry matter, dry matter of the shoot and roots (TDM, DMS, DMR) and DQI for D. nigra seedlings of 240 days under different phosphorus doses.

The species studied here was characterized by Pacheco et al. (2013) Pacheco FV, Pereira CR, Silva RL, Alvarenga ICA. Crescimento inicial de Dalbergia nigra (Vell.) Allemão ex. Benth. (Fabaceae) e Chorisia speciosa A.St.-Hil (Malvaceae) sob diferentes níveis de sombreamento. Revista Árvore 2013; 37(5): 945-953. http://dx.doi.org/10.1590/S0100-67622013000500017.
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as late secondary to climax. However, the species under the conditions of the present study were observed to act more like a pioneer species, presenting fast growth and linear response to phosphorus. According to Resende et al. (1999) Resende AV, Furtini AE No, Muniz JÁ, Curi N, Faquin V. Crescimento inicial de espécies florestais de diferentes grupos sucessionais em resposta a doses de fósforo. Pesquisa Agropecuária Brasileira 1999; 34(11): 2071-2081. http://dx.doi.org/10.1590/S0100-204X1999001100014.
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, pioneer species showed better results at optimal doses among species of different successional groups, being above 500 mg kg-1 for most of the species tested. On the other hand, climax species do not tend to present responses to fertilization. This is equivalent, for example, to the similar growth found by Gonçalves et al. (2008) Gonçalves EO, Paiva HN, Neves JCL, Gomes JM. Crescimento de mudas de angico-vermelho (Anadenanthera macrocarpa (Benth.) Brenan) sob diferentes doses de macronutrientes. Revista Árvore 2008; 32(6): 1029-1040. http://dx.doi.org/10.1590/S0100-67622008000600008.
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for Anadenanthera macrocarpa in a Dystrophic Red Latosol/typic haplustox soil.

The Dickson quality index of seedlings for plants submitted to different phosphorus doses ( Figure 2 ) also showed linear growth for D. nigra seedlings, and since the highest DQI value produces the best quality seedlings, the dose of 500 mg kg-1 presented the best results in this case. Cruz et al. (2011) Cruz CAF, Cunha ACMCM, Paiva HN, Neves JCL. Efeito de macronutrientes sobre o crescimento e qualidade de mudas de canafístula cultivadas em Latossolo Vermelho-Amarelo distrófico. Revista Árvore 2011; 35(5): 983-995. http://dx.doi.org/10.1590/S0100-67622011000600004.
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also found increasing DQI values in canafistula (Peltophorum dubium ) seedlings. The best results however, were found for the dose of 600 mg kg-1 of phosphorus for Dystrophic Red Latosol/typic haplustox soil.

The linear characteristic of the biometric parameters in relation to the phosphorus doses in the soil being studied is related to the adsorption of P in the soil, considering that it has high clay content. Chaves et al. (2007) Chaves LHG, Chaves IB, Mendes JS. Adsorção de fósforo em materiais de Latossolo e Argissolo. Revista Caatinga 2007; 20(3): 104-111. concluded that the soil attributes that positively influenced phosphorus adsorption capacity were organic matter, base saturation and clay content, while adsorption energy was negatively influenced by these attributes.

The root/shoot ratio for D. nigra showed that the plant invested more in shoot growth than root growth under higher phosphorus doses ( Figure 3 ).

Figure 3
Root/shoot ratio (R/S) for D. nigra of 240 days under phosphorus doses.

According to Grant et al. (2001) Grant CA, Flaten DN, Tomasiewicz DJ, Sheppard SC. A importância do fósforo no desenvolvimento inicial da planta. Informações Agronômicas 2001; 95: 1-5. and similar to what was observed in this study, the root-shoot ratio of the plant increases when there is phosphorus deficiency at the beginning of its development. This means that the reduction in growth due to phosphorus deficiency is generally higher in the shoot part of the plant than in the roots, thus allowing for at least maintaining root growth in order to find and extract more phosphorus from the soil. By contrast, there is no need to promote root growth when the availability of this nutrient is high since the phosphorus supply is facilitated by higher doses. Therefore, plants do not need to invest as much in root growth to obtain this nutrient and can instead invest in shoot growth, causing the root/shoot ratio to decrease.

3.2. Nutrition

3.2.1. Effect of different liming on Ca, Mg and P content and accumulation

The increase in the base saturation did not affect the phosphorus content in the plant shoots, while the accumulation of nutrients in the plant was significant ( Figure 4 ) considering that there was a difference in shoot dry mass between the treatments ( Figure 1 ). The soil analysis of the experiment ( Table 1 ) shows that liming did not affect phosphorus availability in the soil.

Figure 4
Calcium, magnesium and phosphorus levels and accumulation in D. nigra seedling shoots under different base saturations.

Adding limestone provides Ca and Mg in addition to raising soil pH, thus increasing the availability of these nutrients for crop uptake ( Raij, 1991 Raij B van. Fertilidade do solo e adubação. São Paulo: CERES/POTAFOS; 1991. ). As expected, the increase in base saturation favored an increase of Ca and Mg content in the shoot, and also presented increased linear behavior in relation to the increase in liming levels ( Figure 4 ). Favare et al. (2012) Favare LG, Guerrini IA, Backes C. Níveis crescentes de saturação por bases e desenvolvimento inicial de Teca em um latossolo de textura média. Ciência Florestal 2012; 35(4): 693-702. found similar responses for P (without response), as well as for Ca and Mg with linear responses.

Nutrient accumulation in the shoot showed quadratic behavior directly influenced by the shoot dry mass.

3.2.2. Effect of phosphorus doses on the content and accumulation of Ca, Mg and P

The phosphorus levels in the shoot presented quadratic behavior. The maximum content point of this nutrient was for the dose of 27 mg kg-1 with an estimated level of 1.34 g kg-1 ( Figure 5 ).

Figure 5
Calcium, magnesium and phosphorus levels and accumulation in D. nigra seedling shoots under different phosphorus doses.

The Ca and Mg levels observed indicate higher values in the treatments without phosphorus application. This may be due to a higher concentration of these nutrients from the low shoot dry mass of the treated plants (0.36g).

On the other hand, P, Ca and Mg accumulation in the shoot were observed in a linear manner, presenting an increase up to the dose of 500 mg kg-1 as the phosphorus doses increased. The linear growth behavior presented by the phosphorus was the same for the accumulation of nutrients, where the greater the growth, the greater the accumulation in the plant.

4. CONCLUSION

Liming promoted a positive effect in D. nigra, with the best results found for base saturations between 48.07 and 54.76%.

Phosphorus doses showed linear growth for all these variables, and the dose that promoted the best result was the maximum dose used of 500 mg kg-1.

Liming affects Ca and Mg content as well as P, Ca and Mg accumulation in D. nigra plants. P doses affect both the content and accumulation of P, Ca and Mg in D. nigra plants.

ACKNOWLEDGEMENTS

The authors are grateful to the Federal University of Lavras (UFLA) and to the Federal Institute of Goiano-Rio Verde (IFGoiano), where the first author is employed, for the support with the translation of the manuscript.

  • FINANCIAL SUPPORT National Council for Scientific and Technological Development (CNPq) and Coordination for the Improvement of Higher Education Personnel (CAPES).

REFERENCES

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Publication Dates

  • Publication in this collection
    23 Aug 2018
  • Date of issue
    2018

History

  • Received
    09 Oct 2017
  • Accepted
    26 Oct 2017
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