Abstract

The symbiotic association between native fruit species with Arbuscular Mycorrhizal fungi (AMFs) can contribute to the growth and quality of seedlings in soils with low nutrient availability. Thus, the objective of this study was to evaluate the effects of inoculation with AMFs and phosphate fertilization on the growth and quality of jatobazeiro seedlings ( LHymenaea courbaril.). The experiment was conducted in a completely randomized design in a 5 x 5 factorial scheme. The treatments were constituted by inoculation with the AMFs: Clareoideoglomus etunicatum, Rhizoglomus heterosporum, Rhizoglomus clarum, MIX (mixture of inoculations) and without inoculation with the AMFs, associated with five P doses: 0, 60, 120, 180 and 240 mg kg-1, with growth evaluation at 30, 60, 90, 120 and 150 days after transplantation (DAT). At 150 DAT, the production of biomass, the quality of seedlings, the chlorophyll index, the dependence and mycorrhizal efficiency were determined. Phosphorus did not contribute to the jatobazeiro seedlings growth in the conditions of this study. Seedlings with R. clarum and MIX had the highest growth at 150 DAT, while seedlings with R. clarum also resulted in a greater biomass accumulation. The mycorrhizal dependence and efficiency was affected by phosphate fertilization, evidencing that jatobazeiro is a kind of optional mycorrhizal association.

Index terms
native fruit; Hymenaea courbaril L.; mycorrhizal efficiency; phosphate fertilization; seedlings quality

Resumo

A associação simbiótica entre espécies frutíferas nativas com fungos Micorrízicos Arbusculares (FMAs) pode contribuir para o crescimento e a qualidade de mudas em solos com baixa disponibilidade de nutrientes. Desse modo, objetivou-se, com este trabalho, avaliar os efeitos da inoculação com FMAs e adubação fosfatada sobre o crescimento e a qualidade de mudas de jatobazeiro (Hymenaea courbaril L.). O experimento foi realizado em delineamento inteiramente casualizado, em esquema fatorial 5 x 5. Os tratamentos foram constituídos pela inoculação com os FMAs: Clareoideoglomus etunicatum, Rhizoglomus heterosporum, , MIX Rhizoglomus clarum(mistura dos inóculos) e sem inoculação com os FMAs, associados a cinco doses de P: 0; 60; 120; 180 e 240 mg kg-1, com avaliação de crescimento aos 30; 60; 90; 120 e 150 dias após o transplantio (DAT). Aos 150 DAT, determinaram-se a produção de biomassa, a qualidade das mudas, o índice de clorofila, a dependência e a eficiência micorrízica. O fósforo não contribuiu no crescimento das mudas de jatobazeiro, nas condições deste estudo. Mudas com R. clarum e MIX tiveram maior crescimento aos 150 DAT, enquanto as mudas com R. clarum também resultaram em maior acúmulo de biomassa. A dependência e a eficiência micorrízica foi afetada pela adubação fosfatada, evidenciando que o jatobazeiro é uma espécie de associação micorrízica facultativa.

Termos para indexação
frutífera nativa; Hymenaea courbaril L.; eficiência micorrízica; adubação fosfatada; qualidade de mudas

Introduction

Jatobazeiro (Hymenaea courbaril L. Fabaceae) is a fruit tree species, native to the tropical regions and of natural occurrence of most states in (GONZAGA et al., 2016 GONZAGA, L.D.M.; SILVA, S.S.; CAMPOS, S.A.; FERREIRA, R.P.; CAMPOS, A.N.R.; CUNHA, A.C.M.C.M. Recipientes e substratos na produção de mudas de jatobá (Hymenaea courbaril L.). Revista Brasileira de Agropecuária Sustentável, Viçosa, MG, v.6, n.1, p.64-73, 2016. ) Seasonal Semideciduous Forest. Although this species has a wide geographical distribution, it occurs at low population density (SILVA et al., 2014 SILVA, S.M.M.; MARTINS, K.; MESQUITA, A.G.G.; WADT, L.H.D.O. Parâmetros genéticos para a conservação de Hymenaea courbaril L. na Amazônia Sul-Ocidental. Ciência Florestal, Viçosa, MG, v.24, n.1, p.87-95, 2014. ).

Due to its ability to develop in environments with different edaphoclimatic characteristics (CAMARGO et al., 2020 CAMARGO, P.L.T.; MARTINS JUNIOR.P.P.; TEIXEIRA, M.B.; BESERRA, R.K.P. Uso de sigs para geração de mapas com a localização média da aroeira (Schinus terebinthifolius) na margem noroeste do município de São Francisco, bacia hidrográfica do rio São Francisco, MG. Revista Geográfica Acadêmica, Boa Vista, v.19, n.1, p.162-173, 2020. ), and because it is an important food source for wild animals and human consumption (LORENZI, 2020 LORENZI, H. Árvores brasileiras: manual de identificação e cultivo de plantas arbóreas nativas do Brasil. 8.ed. Nova Odessa: Plantarum, 2020. v.1, 384 p. ), the jatobazeiro can be used in reforestation programs for environmental recovery, agroforestry systems and afforestation (SILVA et al., 2017b SILVA, M.A.; PACHECO, C.M.; SILVA, C. A.; NASCIMENTO, H.H.C.; NOGUEIRA, R.J.M.C. Tolerance mechanisms in Hymenaea courbaril L. and Jatropha curcas L. plants as a response to water deficit and contamination by oil derivatives. Revista Árvore, Viçosa, MG, v.41, n.2, 2017b. , HEEMANN et al., 2018 HEEMANN, T.P.; ARANTES, S.; ANDRADE, E.; VIANA, D.; SELLA, H. Phytoremediation capacity of forest species to herbicides in two types of soils. Floresta e Ambiente, Seropédica, v.25, n.3, 2018. ; COSTA et al., 2019 COSTA, E.; LOPES, K.G.; BINOTTI, F.F.D.S.; BINOTTI, E.D.C.; DALASTRA, C. Technologies for jatoba seedling formation. Floresta e Ambiente, Seropédica, v.26, n.1, p.1-8, 2019. ; LORENZI, 2020 LORENZI, H. Árvores brasileiras: manual de identificação e cultivo de plantas arbóreas nativas do Brasil. 8.ed. Nova Odessa: Plantarum, 2020. v.1, 384 p. ). However, there are still incipient studies with technologies for a production model of jatobazeiro seedlings.

The accession of inoculation technology with arbuscular mycorrhizal fungi (AMFs) has been shown to be efficient in seedlings’ production, especially of forest species (SANTOS et al., 2016 SANTOS, R. S. dos; SCORIZA, R. N.; SILVA, E. M. R. da; SAGGIN JÚNIOR, O. J. Selection of mycorrhizal fungi for the initial growth of Albizia polycephala. Revista Brasileira de Ciências Agrárias, Fortaleza, v.11, n.2, p.98-103, 2016. ; RODRIGUES et al., 2018 RODRIGUES, L.A.; BARROSO, D.G.; FIQUEIREDO, F.A.M.M.A. Fungos micorrízicos arbusculares no crescimento e na nutrição mineral de mudas de Tectona grandis L. F. Ciência Florestal, Viçosa, MG, v.28, n.1, p.25-34, 2018. ), and can be used as an alternative tool for spreading of jatobazeiro seedlings. Among the advantages of using the AMFs, is the broad spectrum of colonization, since a plant species can be colonized by any kind of AMF (CAVALCANTE et al., 2009 CAVALCANTE, U.M.T.; GOTO, B.T.; MAIA, L.C. Aspectos da simbiose micorrízica arbuscular. Anais da Academia Pernambucana de Ciência Agronômica, Recife, v.5, n.0, p.180-208, 2009. ), having as main effect, the increase in plant growth in reflection of the greater absorption of nutrients. Especially those with lower mobility, such as phosphorus (P), thus presenting a stimulating effect on the development of plants (PEREIRA et al., 2018 PEREIRA, J. E. S.; BARRETO-GARCIA, P. A. B.; SCORIZA, R. N.; SAGGIN JUNIOR, O. J.; GOMES, V. S. Arbuscular mycorrhizal fungi in soils of arboreal Caatinga submitted to forest management. Revista Brasileira de Ciências Agrárias, Fortaleza, v.13, n.1, p.1-6, 2018. ; SILVA et al., 2017a SILVA, E.P.; FERREIRA, P.A.A.; FURTINI-NETO, A.E.; SOARES, C.R.F.S. Micorrizas arbusculares e fosfato no desenvolvimento de mudas de Cedro-Australiano. Ciência Florestal, Viçosa, MG, v.27, n.4, p.1269-1281, 2017a. ).

Generally the fruit and forest species have good response to mycorrhizal inoculation, and P absorption is the most significant effect (DALANHOL et al., 2017 DALANHOL, S.J.; NOGUEIRA, A.C.; GAIAD, S.; KRATZ, D. Efeito de micorrizas e da fertilização no crescimento de mudas de Campomanesia xanthocarpa (MART.) O.BERG., produzidas em diferentes substratos. Ciência Florestal, Viçosa, MG, v. 27, n. 3, p. 931-945, 2017. ).

P governs the effects of mycorrhizal symbiosis in the plants, and depending on the amount of available P, it can be of mutualistic, neutralistic or parasitic nature, besides acting directly on the metabolism and growth of plants (MOREIRA et al., 2019 MOREIRA, S.D.; FRANÇA, A.C.; GRAZZIOTTI, P.H.; LEAL, F.D.S.; SILVA, E.D.B. Arbuscular mycorrhizal fungi and phosphorus doses on coffee growth under a non-sterile soil. Revista Caatinga, Mossoro, v.32, n.1, p.72-80, 2019. ; SMITH et al., 2010 SMITH, S. E.; FACELLI, E.; POPE, S.; SMITH, F. A. Plant performance in stressful environments: Interpreting new and established knowledge of the roles of arbuscular mycorrhizas. Plant and Soil, v. 326, n. 1, p. 3-20, 2010. ).

In the literature, some species have responded positively regarding the association with AMF, such as Jatrophas curcas L.(OLIVEIRA et al., 2017 OLIVEIRA, D.F.B.; ENDRES, L.; SILVA, J.V.; MOURA BARROS, J.M.T.; SILVA SANTOS, A.F.; GONZAGA, E.P. Association and mycorrhizal dependency in Jatropha curcas L. seedlings under salt stress. Revista Ceres, Viçosa, MG, v.64, n.6, p.592-599, 2017. ), Australian cedar (SILVA et al., 2017c), cocoa tree (MENDES et al., 2020 MENDES, A.S.; OLIVEIRA, A.P.; SANTOS, A.O. dos.; MELLO, A.H. de. Avaliação da faúna edáfica e desenvolvimento do cacau inoculado com fungos micorrízicos. Enciclopédia Biosfera, Jandaia, v.17, n.33, p.120-133, 2020. ) and coffee plant (ARAÚJO et al., 2020 ARAÚJO, F.H.V.; CRUZ, R.D.S.; PORTO, D.W.B.; MACHADO, C.M.M.; FRANÇA, A.C. Effects of mycorrhizal association and phosphate fertilization on the initial growth of coffee plants. Pesquisa Agropecuária Tropical, Goiânia, v.50, p.e58646, 2020. ). On the other hand, other species were not as responsive as “pitangueira” (DALANHOL et al., 2016 DALANHOL, S.J.; NOGUEIRA, A.C.; GAIAD, S.; KRATZ, D. Efeito de fungos micorrízicos arbusculares e da adubação no crescimento de mudas de Eugenia uniflora L., produzidas em diferentes substratos. Revista Brasileira de Fruticultura, Jaboticabal, v.38, n.1, p.117-128, 2016. ), “timbaúba” (LEITE et al., 2017 LEITE, T.D.S.; DOMBROSKI, J.L.D.; FREITAS, R.M.O.D.; LEITE, M.D.S.; RODRIGUES, M.R.D.O. Produção de mudas de Enterolobium contortisiliquum e partição de assimilados em resposta à adubação fosfatada e inoculação com fungos micorrízicos. Ciência Florestal, Viçosa, MG, v. 27, n.4, p. 1157-1166, 2017. ) and paricá (LIMA et al., 2020 LIMA, A.O.S.; SCHWARTZ, G.; SILVA, A.R.; LUNZ, A.M.; MELLO, A.H.; ALBINO, U.B. Efeito de microrganismos indutores de crescimento e adubação química em paricá em solo arenoso. Brazilian Journal of Development, Curitiba, v.6, n.11, p.91670-91683, 2020. ).

Thus, for the use of this biotechnology tool as an efficient agricultural practice it is necessary to conduct studies that seek the best combination among AMF species, with plants of interest, since the AMFs have different efficacy, and each host plant species has variable mycorrhizal dependence (BERUDE et al., 2015 BERUDE, M.C.; ALMEIDA, D.S.; RIVA, M.M.; CABANÊZ, P.A.; AMARAL, A.A. Micorrizas e sua importância agroecológica. Enciclopédia Biosfera, Jandaia, v.11, n.22, p.132-146, 2015. ).

Based on the above, the AMFs are promising for nursery production, since the use of mycorrhizal fungi inoculation can contribute to the quality and vigor of fruit seedlings, with rapid development, with high aggregate economic value, besides requiring fewer agricultural inputs. Thus, the objective was to evaluate the inoculation effects with arbuscular mycorrhizal fungi and phosphate fertilization on the growth and quality of jatobazeiro seedlings.

Material and Methods

The experiment was conducted in the period between May and December 2020, in a protected environment – covered greenhouse with low-density polyethylene (LDPE) transparent plastic, with 150 microns thick and laterally surrounded by structure coated with black nylon screen with 75% shade, without automated irrigation system, at the Agricultural Sciences School of Universidade Federal da Grande Dourados (UFGD) (22°11’53.2”S and 54°56’02.3”W, 400 m), in Dourados/MS. The climate of the region is type Am (Tropical Monsoon), with warm summers and dry winters (FIETZ et al., 2017 FIETZ, C.R.; FISCH, G.F. O clima na região de Dourados, MS. Dourados: Embrapa Agropecuária Oeste, 2017. 34p. ).

Jatobazeiro seedlings were derived from fruits collected in the remaining area of Cerrado. After manual processing, the seeds were subjected to thermal scarification, to perform the dormancy overcoming and subsequently, were sown in plastic pots of 0.00029 m3 filled with commercial substrate Bioplant®. The trays were placed under a nursery with 70% of shading for 40 days, when the seedlings had a mean height of 15.0 cm.Soon after they were transplanted to pots with volumetric capacity of 0.007 m3.

The substrate used in the experiment was composed of a soil mixture - Oxisol of clay texture and thick sand at the ratio of 2:1 (v/v), with the following chemical attributes before the correction : pH (CaCl2)= 4.69;P=5.57 mg dm-3; K= 0.10 cmolc dm-3; Ca= 2.91 cmolc dm-3; Mg= 0.85 cmolc dm-3; S= 7.65 mg dm-3; Al= 0.30 cmolc dm-3; H + Al= 4.44 cmolc dm-3; CEC= 8.30 cmolc dm-3; BS= 3.86 cmolc dm-3; organic matter= 9.79 g dm-3; Fe=41.60 mg dm-3; B= 0.25 mg dm-3; Cu= 2.40 mg dm-3; Mn=16.50 mg dm-3; Zn= 1.45 mg dm-3; bases saturation= 45.60.

The soil correction was performed, according to Raij (2011) RAIJ, B. V. Fertilidade do solo e manejo de nutrientes. Piracicaba: International Plant Nutrition Institute, 2011. 420p. , it was applied 1 kg per m3 of hydrated lime with RPTN of 95%, in order to raise the base saturation (V %) to 65%. After the correction, the substrate was sterilized in autoclave for an hour, at a temperature of 121 °C and pressure of 1 atm, in order to ensure that only the mycorrhizal fungi of the inoculum will be present in the substrate. Soon after sterilization, the substrate was placed in plastic pots of 0.007 m3 capacity and taken to the greenhouse house.

The experimental design was completely randomized, and the treatments were arranged in a 5 x 5 factorial scheme, with subdivided plots in time for the growth variables and chlorophyll index. The treatments consisted of the combination of seedlings without AMFs inoculation (control) and inoculated with Clareoideoglomus etunicatum, Rhizoglomus heterosporum, Rhizoglomus clarum and MIX (mixture of the three AMFs species), associated with the combination of five doses of P: 0, 60, 120, 180 and 240 mg kg-1 soil, with four replications. Each experimental unit was constituted by a pot containing 0.007 m3 of substrate, with two seedlings per pot.

The phosphorus doses were established based on the study of Bassan et al. (2020) BASSAN, D.A.Z.; SANTOS, S.C.; LOURENTE, E.R.P.; DAVIDE, L.M.C.; MEDEIROS, E.S.de; CARVALHO, L.G.V.; RUI, R.F.; SOUZA, G.G. Mudas de canafístula (Peltophorum dubium (Spreng.) Taub.) com fungos micorrízicos arbusculares. In: SANTOS, C.C.; SCALON, S.P.Q. Ecofisiologia e nutrição de espécies frutíferas e arbóreas. Nova Xavantina: Pantanal, 2020. p.126-148. , in which the source used was the KH2PO4 (dipotassium phosphate). Due to the increasing doses of P, it was necessary to balance the doses of K, with 0.49; 0.37; 0.25; 0.12 and 0.00 g dm-3 of KCl, in the preparation of the substrate.

In the seedlings transplantation, the AMFs were inoculated in the substrate from the mixture of soil and colonized roots (5x10-5 m3 pot-1 of inoculum), at an approximate depth of 3 cm, near the seedlings root system (BRITO et al., 2017 BRITO, V.N.; TELLECHEA, F.R.F.; HEITOR, L.C.; FREITAS, M.S.M.; MARTINS, M.A. Fungos micorrízicos arbusculares e adubação fosfatada na produção de mudas de paricá. Ciencia Florestal, Viçosa, MG, v.27, n.2, p.485-497, 2017. ).

The irrigation was periodically performed according to the seedlings needs, to maintain 75% of the water retention capacity in the soil. At 112 days after transplantation nitrogenized fertilization was performed with 0.70 g of N plant-1, having urea as source.

Every 30 days, starting at 30 until 150 days after seedlings transplantation (DAT), the following morphological characteristics were evaluated: i) plant height - PH (cm), determined by the root neck distance until the highest leaf inflexion, with the aid of a measuring tape; ii) root neck diameter - RND (mm), inserted at 1.0 cm above the substrate level, with the use of digital caliper; iii) rate between height and neck diameter - HNDR, calculated through the formula: HNDR = (PH/RND). The chlorophyll index was also evaluated with SPAD-502 chlorophyll meter (Konica-Minolta, Tokyo, Japan), the evaluations were performed between 8 and 10 o’clock in the morning, always in the first pair of leaves, so that the measurements were always performed in the same leaves.

After 150 DAT, seedlings were removed from the pots, separating them in shoot (leaves + stems) and root system. The shoot and roots were weighed in a precision analytical scale (0.0001 g), for determining the shoot fresh mass – SFM and the root fresh mass – RFM. Subsequently, they were placed separately in Kraft® paper bags and submitted to drying in an air forced circulation greenhouse at 60° ± 5 for 72 hours to obtain the shoot dry mass - SDM; root dry mass - RDM; total plant dry mass - TDM, and the shoot and root ratio - SRR was calculated. The seedlings quality pattern – DQI was calculated according to Dickson et al. (1960) DICKSON, A.; LEAF, A.L.; HOSNER, J.F. Quality appraisal of white spruce and white pine seedling stock in nurseries. The Forestry Chronicle, Ottawa, v.36, n.1, p.10-13, 1960. .

The mycorrhizal dependence – MD and the mycorrhizal efficiency – ME were obtained from the data of the mycorrhizal seedlings dry masses (MDM) and the non-mycorrhizal seedlings dry masses (NDM), through the formulas: iv) MD (%) = (MDM – NDM) / MDM) x 100 and v) ME (%) = ((MDM – NDM) / NDM) x 100 (PLENCHETTE et al., 1983 PLENCHETTE, C.; FORTIN, J.A.; FURLAN, V. Growth responses of several plant species to mycorrhizae in a soil of moderate P-fertility - I. Mycorrhizal dependency under field conditions. Plant and Soil, The Hague, v.70, n.2, p.199-209, 1983. ).

The mycorrhizal dependence – MD and the mycorrhizal efficiency – ME were obtained from the data of mycorrhizal seedlings dry masses (MDM) and non-mycorrhizal seedlings dry masses (NDM), through the formulas: iv) MD (%) = (MDM – NDM) / MDM) x 100 and v) ME (%) = ((MDM – NDM) / NDM) x 100 (PLENCHETTE et al., 1983 PLENCHETTE, C.; FORTIN, J.A.; FURLAN, V. Growth responses of several plant species to mycorrhizae in a soil of moderate P-fertility - I. Mycorrhizal dependency under field conditions. Plant and Soil, The Hague, v.70, n.2, p.199-209, 1983. ).

All data were submitted to the Shapiro Wilks normality test (P < 0.05), and transformed when they did not show normal by the formula: ARCOSENO

The data were submitted to the analysis of variance (ANOVA) and, when significant by the F test (P ≤ 0.05), the means were compared by the Tukey test for AMFs and the regression analysis for phosphorus doses (P ≤ 0.05), using the SISVAR software (FERREIRA, 2011 FERREIRA, D. Sisvar: a computer statistical analysis system. Ciência e Agrotecnologia, Lavras, v.35, n.6, p.1039-1042, 2011. ).

The growth characteristics and the chlorophyll index were analyzed in subdivided plots at time and, when significant (F test), the means were submitted to regression analysis (P ≤ 0.05). The MD and ME results were presented in a descriptive way.

From the data of 150 DAT, it was determined the Pearson linear correlation (P ≤ 0.05) and the cluster analysis by the most distant neighbor method (Euclidian distance), using the PAST 3.21 software.

Results and discussion

In general, there was no significant effect of the interaction among the P doses (phosphorus) and the arbuscular mycorrhizal fungi (AMFs) for the growth characteristics in jatobazeiro seedlings. Phosphate fertilization did not provide a significant effect on seedlings.

There was an effect of the evaluation time interaction only with AMFs for the root neck diameter, for the other characteristics there was no interaction between the period and the other studied factors. The seedlings quality standard, represented by the DQI, root fresh mass and shoot/ root ratio were also not influenced by phosphorus doses and for the inoculation with the AMFs.

Jatobazeiro seedlings did not answer the tested P doses, which may indicate that the doses applied to the soil were superior optimal for the initial development of this species. This result may be associated with the fact that the species is classified as climax, little demanding in nutrients and more adapted to acid and low fertility soils, therefore less responsive to fertilizers supply and consequently little affected by P availability in the soil (SANTOS et al., 2008 SANTOS, J.Z.L.; RESENDE, Á.V.; FURTINI NETO, A.E.; CORTE, E.F. Crescimento, acúmulo de fósforo e frações fosfatadas em mudas de sete espécies arbóreas nativas. Revista Árvore, Viçosa, MG, v.32, n.5, p.799-807, 2008. ; ALVES et al., 2015 ALVES, J.D.N.; SOUZA, F.C.A. de; OLIVEIRA, M.L. de; OLIVEIRA, M.C.M.A.; OKUMURA, R.S. Phosphorus sources in the initial growth of seedlings of (Hymenaea stigonocarpa Mart.). Nucleus, Ituverava, v.12, n.2, p.299-307, 2015. ; SOARES et al., 2013 SOARES, J.N.; REIS, J.M.R.; PEREIRA, I.S.; REIS, M.R.; GONTIJO, R.G. Avaliação do desenvolvimento de mudas de jatobá-do-cerrado (Hymenaea stigonocarpa Mart.) em diferentes fontes de fósforo. Cerrado Agrociências, Patos de Minas, v.1, n.4, p.35-41, 2013. ).

In addition, the jatobazeiro has large seeds, which contributes to higher P content in the form of reserve compounds, which possibly contributed to meet the nutritional demands of this nutrient during the initial seedlings growth (FARIA et al., 2013 FARIA, T.M.; SCABORA, M.H.; MALTONI, K.L.; CASSIOLATO, A.M.R. Micorrização e crescimento de progênies de Hymenaea stignocarpa Mart. ex. Hayne em subsolo de área degradada. Ciência Florestal, Viçosa, MG, v.23, n.1, p.233-243, 2013. ; LACERDA et al., 2011 LACERDA, K.A.P.; SILVA, M.M.D.S.; CARNEIRO, M.A.C.; REIS, E.F.D.; SAGGIN JÚNIOR, O.J. Fungos micorrízicos arbusculares e adubação fosfatada no crescimento inicial de seis espécies arbóreas do cerrado. Cerne, Lavras, v.17, n.3, p.377-386, 2011. ). Thus, the content of 5.57 mg dm-3 of P, present in the soil used in the experiment (before fertilization), which increased after soil correction, associated with P present in the seeds, as reserve compound, were possibly sufficient to meet the P needs, since the seedlings that did not receive phosphate fertilization, did not differ from fertilized seedlings, suggesting high phosphorus use efficiency in the initial growth phase.

The height of jatobazeiro seedlings was influenced by the AMFs species and evaluation time, isolated, and the seedlings cultivated with the MIX and R. clarum inoculums had higher means (45.77 and 45.73 cm, respectively), differing statically from those without inoculation (Figure 1A). As for evaluation periods, the seedlings showed linear growth, with higher height (57.40 cm) at 150 DAT (Figure 1B). For the height / root neck diameter ratio (HRDR), the responses were similar to the PH for the AMFs, i.e., seedlings with MIX and R. clarum, had higher means (10.06 and 9.87 cm, respectively), differing statistically from the seedlings cultivated with C. etunicatum and those without AMF (Figure 1C). On the other hand, for the evaluation period, we observed the quadratic response, with maximum value (11.98) at 141 DAT (Figure 1D).The root neck diameter (RND) was adjusted to the linear model, with higher value at 150 DAT, especially in the seedlings with AMFs (Table 1), and this increase contributes in the transport of water and nutrients to the seedlings in initial formation. In addition, this increase in RND accompanied by PH at 150 DAT favored the morphometric stability, here represented by the HNDR.

The seedlings reached higher height at 150 DAT (Figures 1B and D; Table 1), this late growth is associated with the fact that jatobazeiro presents slow vegetative growth, in the initial phase (CARVALHO, 2003 CARVALHO, P. E. R. Espécies arbóreas brasileiras. Brasília: Embrapa Informação Tecnológica, 2003. v.1, 1042 p. ). Growth characteristics of the shoot are usually considered for classification and selection of seedlings, and their period in the nursery, to be taken to the field (ABREU et al., 2020 ABREU, G.M.; SCHIAVO, J.A.; GUIRARDI, B.D.; PAYÁ, T.I.A.; ABREU, P.M.; BOBADILHA, G.S.; OLIVEIRA, N.S. Crescimento inicial e qualidade de mudas de Dipteryx alata inoculadas com fungos micorrízicos arbusculares sob adubação fosfatada. In: SANTOS, C.C.; SCALON, S.P.Q. Ecofisiologia e nutrição de espécies frutíferas e arbóreas. Nova Xavantina: Pantanal, 2020. p.60-69. ; ARAÚJO et al., 2017 ARAÚJO, E.F.; AGUIAR, A.S.; ARAUCO, A.D.S.; GONÇALVES, E.D.O.; ALMEIDA, K.D. Crescimento e qualidade de mudas de paricá produzidas em substratos à base de resíduos orgânicos. Nativa, Sinop, v.5, n 1, p.16-23, 2017. ; BRACHTVOGEL; MALAVASI, 2010 BRACHTVOGEL, E.L.; MALAVASI, U.C. Volume do recipiente, adubação e sua forma de mistura ao substrato no crescimento inicial de Peltophorum dubium (sprengel) taubert em viveiro. Revista Árvore, Viçosa, MG, v.34, n.2, p.223-232, 2010. ). In the study with jatobazeiro, the seedlings had better development at 150 DAT, since they had higher distribution of photoassimilates between the shoot and the roots, although studies in field conditions are suggested.

The SPAD chlorophyll index, which is based on the intensity of the green color, is essential to evaluate the photosynthetic efficiency of the mycorrhized seedlings.

Although the AMFs may increase the fixed carbon (C) during photosynthesis, stimulating the photosynthetic rates (JESUS, 2020 JESUS, M.V. Déficit hídrico associado à micorrizas arbusculares e ácido abscísico no metabolismo fotossintético e crescimento inicial de mudas de Dipteryx alata Vogel. 2020. Tese (Doutorado em Agronomia: Produção Vegetal) - Faculdade de Ciências Agrarias, Universidade Federal da Grande Dourados, 2020. ), in the jatobazeiro seedlings there was only response of the evaluation time, (Figure 2), presenting quadratic adjustment, and until 90 DAT, the maximum calculated value was 48 SPAD, and reduction after this period.

Perhaps, the reduction in the SPAD values is associated with the fact that the plants presented in these later periods yellowish leaves, due to the senescence of some upper leaf limbs. It is noteworthy that the evaluations of these characteristics were always performed in the first pair of leaves, i.e., they were with yellowish coloration, and some seedlings had already lost at least one of their leaves. In addition, it is suggested that this result may be associated initially, with the lack of N after the seedlings transplantation. As a result, at 112 DAT fertilization was performed with N, but it was not a sufficient period for the seedlings to have increased the intensity of green coloration.

The shoot fresh mass (SFM) was influenced by the AMFs species (Figure 3A), and non-inoculated seedlings had the highest means (22.78 g), not statistically differing from the seedlings with R. heterosporum. The seedlings inoculated with R. clarum and R. heterosporum had higher average of shoot dry matter (8.72 and 8.55 g, respectively), and those with R. clarum also presented higher values of root dry mass (3.45 g) and total (12.27 g) (Figures 3B, C and D), demonstrating that these AMFs species favor the efficiency of the metabolism and production of photoassimilates.

The increase in the biomass is due to the efficiently absorption of soil nutrients by the mycorrhizal association compared to the non-inoculated ones (BERUDE et al., 2015 BERUDE, M.C.; ALMEIDA, D.S.; RIVA, M.M.; CABANÊZ, P.A.; AMARAL, A.A. Micorrizas e sua importância agroecológica. Enciclopédia Biosfera, Jandaia, v.11, n.22, p.132-146, 2015. ). Similarly, Brito et al. (2017) BRITO, V.N.; TELLECHEA, F.R.F.; HEITOR, L.C.; FREITAS, M.S.M.; MARTINS, M.A. Fungos micorrízicos arbusculares e adubação fosfatada na produção de mudas de paricá. Ciencia Florestal, Viçosa, MG, v.27, n.2, p.485-497, 2017. observed higher biomass production in Schizolobium parahyba seedlings, when associated with Rhizophagus clarus and MIX.

Mimosa scabrella and Mimosa bimucronata also had good results when they were inoculated with R. clarus, R. irregulars, Acaulospora morrowiae, Acaulospora colombiana, and Dentiscutata heterogama (STOFFEL et al., 2016 STOFFEL, S. C. G.; ARMAS, R. D. de; GIACHINI, A. J.; ROSSI, M. J.; GONZALEZ, D.; MEYER, E.; NICOLEITE, C. H.; ROCHA-NICOLEITE, E.; SOARES, C. R. F. S. Micorrizas arbusculares no crescimento de leguminosas arbóreas em substrato contendo rejeito de mineração de carvão. Cerne, Lavras, v.22, n.2, p.181-188, 2016. ).

Although the Dickson quality index (DQI) was not significant due to the studied factors, the seedlings had a general average of 0.87, indicating satisfactory results.

Gomes and Paiva (2011) GOMES, J. M.; PAIVA, H. D. Viveiros florestais: propagação sexuada. Viçosa: UFV, 2011. 116p. describe that in order for the seedlings to be considered of high quality, they should present DQI > 0.20. However, it is noteworthy that the values can vary according to several factors, for example: age of the seedlings, species, successional group, among others. Jatobazeiro seedlings had good quality standard, regardless of the use of phosphorus and AMF, suggesting physiological plasticity of this species to cultivation conditions.

It can be observed positive and negative significant correlations of the Pearson correlation analysis, at all intensity levels (heat map) (Figure 5). The strong positive correlations (~1.0) occurred between: PH and NDR; PH and TDM; PH and MSD; MST and MSPA; EM and DM, reinforcing that the increase in the growth characters favored the increase of photoassimilates, resulting in higher biomass production, and negative (~1.0) between: RPAR and MSR.

The DQI, the MD and the ME presented intermediate level positive correlations (~0.50 to 0.33), with the PH, SDM, RDM and TDM, suggesting that even without significant difference, the correlation indicates that the AMFs participate in improvements of the jatobazeiro seedlings vigor.

The positive correlation between DQI with PH and RND is associated with the fact that they are characteristics that constitute seedlings quality, since they relate to the balance capacity, which correlated positively with the seedlings biomass. The DQI considers the biomass distribution balance in the plant with the growth of the shoot, and the higher its value, the greater its vigor, and it is a much employed evaluation in the nursery (MEDEIROS et al., 2018 MEDEIROS, M.D.B.C.L.; JESUS, H.I.; SANTOS, N.D.F.A.; MELO, M.R.S.; SOUZA, V.Q.; BORGES, L.S.; GUERREIRO, A.C.; FREITAS, L.S. Índice de qualidade de dickson e característica morfológica de mudas de pepino, produzidas em diferentes substratos alternativos. Revista Agroecossistemas, Marabá, v.10, n.1, p.159-173, 2018. ).

The mycorrhizal symbiosis can be of a mutualistic, neutralistic or parasite nature, depending on the species of AMF involved and the availability of P in the soil (SMITH et al., 2010 SMITH, S. E.; FACELLI, E.; POPE, S.; SMITH, F. A. Plant performance in stressful environments: Interpreting new and established knowledge of the roles of arbuscular mycorrhizas. Plant and Soil, v. 326, n. 1, p. 3-20, 2010. ). The establishment of mycorrhizal associations/colonizations should not be used as the sole parameter or efficiency guarantee, since certain AMFs species can be highly infective, but inefficient in providing nutrients to the plant, not favoring its growth.

The response in the plant growth and in the mycorrhization, at different soil fertility levels, is dependent on plant species. According to Ouledali (et al., 2018 OULEDALI, S.; ENNAJEH, M.; ZRIG, A.; GIANINAZZI, S.; KHEMIRA, H. Estimating the contribution of arbuscular mycorrhizal fungi to drought tolerance of potted olive trees (Olea europaea). Acta Physiologiae Plantarum, Berlin, v.40, n.5, p. 1-13, 2018. ), these differences can be defined genetically by the plant species, being variables or dependent on the interaction between the genomes and by the soil conditions, by the response and mycorrhizal efficiency.

Thus, it is essential to know the dependence and the mycorrhizal efficiency of the host plant, thus defining, to what extent the host plant will respond to the colonization with AMF and which are the species that will bring better results to the symbiosis, in a given condition (SCHIAVO et al., 2010 SCHIAVO, J.A.; SILVA, C.A. da; ROSSET, J.S.; SECRETTI, M.L.; SOUSA, R.A.C. de; CAPPI, N. Composto orgánico e inoculação micorrízica na produção de mudas de pinhão manso. Pesquisa Agropecuária Tropical, Goiânia, v.40, n.3, p.322-329, 2010. ).

Without P, the mycorrhizal dependence (MD) and mycorrhizal efficiency (ME) of the inoculated seedlings with C. etunicatum was 32% and 48%, respectively, occurring reduction up to 120 mg kg-1 of P (Figures 4A and B), reflecting in -5% values for both characteristics.

However, from 180 mg kg-1 of P, the values increased, reaching up to 7% of MD and 8% of ME, cultivated with 240 mg kg-1 of P.

The MD and the ME of the seedlings with MIX had similar responses to those with C. etunicatum. Without P, the MD and ME was 44 and 79%, respectively. With 60 mg kg-1 of P, the MD and ME declined to -8%. From 120 mg kg-1 of P, the MD and ME values increased, reaching up to 15% of MD and 18% of ME associated with the higher dose of P.

Jatobazeiro seedlings with R. clarum without P had MD of 42% and ME of 74%, which reduced with 60 mg kg-1 of P, and increased with 120 mg kg-1 of P, reaching up to 17% and 21% of MD and ME, respectively, with 240 mg kg-1 of P. Already the seedlings with R. heterosporum had decreased MD and ME as increase in the doses of P, varying from 42% and 0.87% without and with 120 mg kg-1 of P for the MD and from 70% to 0.88% for ME.

According to the MD category proposed by Habte and Manjunath (1991) HABTE, M.; MANJUNATH, A. Categories of vesicular-arbuscular mycorrhizal dependency of host species. Mycorrhiza, Berlin, v.1, n.1, p.3-12, 1991. , the jatobazeiro seedlings had moderate MD (25 to 50%), without P for all AMFs species.

Seedlings with R. clarum and R. heterosporum in the other doses of P were marginally dependent (MD< 25%).

Com120 and 60 mg kg-1 of P, seedlings with C. etunicatum and MIX, respectively, did not present responses to mycorrhizal inoculation. However, the increase of these doses the seedlings became marginally dependent, since the MD values increased (Figures 4A), suggesting that the effect of the mycorrhizal association in the jatobazeiro is affected by the phosphate fertilization in the conditions in which this study was performed.

The MD and ME negative values in the seedlings with C. etunicatum + 120 mg kg-1 of P and MIX + 60 mg kg-1 of P (Figure 4A and B), indicate that the seedlings had lower dry mass accumulation compared to those without AMF. According to Bassan et al. (2020) BASSAN, D.A.Z.; SANTOS, S.C.; LOURENTE, E.R.P.; DAVIDE, L.M.C.; MEDEIROS, E.S.de; CARVALHO, L.G.V.; RUI, R.F.; SOUZA, G.G. Mudas de canafístula (Peltophorum dubium (Spreng.) Taub.) com fungos micorrízicos arbusculares. In: SANTOS, C.C.; SCALON, S.P.Q. Ecofisiologia e nutrição de espécies frutíferas e arbóreas. Nova Xavantina: Pantanal, 2020. p.126-148. , these responses indicate that the AMFs inoculums may not have found favorable conditions for their development and to benefit the seedlings.

Ramírez-Gil (2019) RAMÍREZ-GIL, J.G. Dependencia, colonización y crecimiento en Gmelina arborea inoculada con cinco cepas de hongos micorrízicos arbusculares. Revista Facultad Nacional de Agronomia Medellin, Medellin, v.72, n.2, p.8775-8783, 2019.( , in their study with Gmelina arborea, also verified moderate MD in the low and moderate P conditions, when inoculated with Rhizoglomus fasciculatum, R. aggregatum and R. irregulare and marginal dependence when inoculated with Glomus fasciculatum and Entrophospora colombiana. In the high P condition (0.20 mg kg-1), all AMFs species inoculated in Gmelina arborea had negative MD values.

In a study with Peltophorum dubium, the AMFs Glomus clarum and Gigaspora margarita had high MD and ME with 60 and 120 mg kg-1 of P (BASSAN et al., 2020 BASSAN, D.A.Z.; SANTOS, S.C.; LOURENTE, E.R.P.; DAVIDE, L.M.C.; MEDEIROS, E.S.de; CARVALHO, L.G.V.; RUI, R.F.; SOUZA, G.G. Mudas de canafístula (Peltophorum dubium (Spreng.) Taub.) com fungos micorrízicos arbusculares. In: SANTOS, C.C.; SCALON, S.P.Q. Ecofisiologia e nutrição de espécies frutíferas e arbóreas. Nova Xavantina: Pantanal, 2020. p.126-148. ), indicating that for facultative mycorrhizal association species, high P levels in the soil make the adversary mycorrhizal association to plant, as observed with the jatobazeiro, where the MD and ME decreased with the application of phosphate fertilization. Where in the condition of high P concentration (120 mg kg-1), the fungus continued demanding photoassimilates for its survival, while the plant, due to the moderate or facultative mycorrhizal dependence, was less benefited by the absorption of water and nutrients by the fungus.

In general, jatobazeiro seedlings had satisfactory ME values, especially those cultivated with the AMFs R. heterosporum, R. clarum and MIX, which promoted values higher than 70% without P (Figure 4B), reflecting in the biomass and height production.

Thus, the jatobazeiro can be classified as a species of facultative mycorrhizal association. In the low P availability in the soil, the mycorrhizal association intensifies, however, when there are high P concentrations in the soil, the association decreases, since the plant already has sufficient P for its development (ROCHA et al., 2006 ROCHA, F.S.; SAGGIN JÚNIOR, O.J.; SILVA, E.M.R.; LIMA, W.L. Dependência e resposta de mudas de cedro a fungos micorrízicos arbusculares. Pesquisa Agropecuária Brasileira, Brasília, DF, v.41, n.1, p.77-84, 2006. ; SOUZA et al., 2017 SOUZA, F.A. de; SCHLEMPER, T.R.; STÜRMER, S.L. A importância da tecnologia de inoculação de fungos micorrízicos para a sustentabilidade na olericultura. In: LOPES, C.A.; PEDROSO, M.T.M. Sustentabilidade e horticultura no Brasil: da retórica à prática. Brasília: Área de Informação da Sede-Texto para Discussão (ALICE), 2017. p.223-251. ).

The efficiency of the mycorrhizal to promote plants’ growth, varies according to the AMF combination with the plant species, associated with biotic and abiotic factors of the system, such as the soil type and the use of phosphate fertilization, may present different degrees of efficiency, being even ineffective or temporary parasite (SMITH et al., 2010 SMITH, S. E.; FACELLI, E.; POPE, S.; SMITH, F. A. Plant performance in stressful environments: Interpreting new and established knowledge of the roles of arbuscular mycorrhizas. Plant and Soil, v. 326, n. 1, p. 3-20, 2010. ; FEITOSA; SANTOS, 2017 FEITOSA, A. G.; SANTOS, D. R. Fósforo e fungos micorrizicos no crescimento de mudas arbóreas da caatinga. Agropecuária Cientifica no Semiárido, Campina Grande, v.12, n.4, p.392-396, 2017. ; BASSAN et al., 2020 BASSAN, D.A.Z.; SANTOS, S.C.; LOURENTE, E.R.P.; DAVIDE, L.M.C.; MEDEIROS, E.S.de; CARVALHO, L.G.V.; RUI, R.F.; SOUZA, G.G. Mudas de canafístula (Peltophorum dubium (Spreng.) Taub.) com fungos micorrízicos arbusculares. In: SANTOS, C.C.; SCALON, S.P.Q. Ecofisiologia e nutrição de espécies frutíferas e arbóreas. Nova Xavantina: Pantanal, 2020. p.126-148. ).

In studies with Toona ciliata, Silva (et al., 2017a) SILVA, E.P.; FERREIRA, P.A.A.; FURTINI-NETO, A.E.; SOARES, C.R.F.S. Micorrizas arbusculares e fosfato no desenvolvimento de mudas de Cedro-Australiano. Ciência Florestal, Viçosa, MG, v.27, n.4, p.1269-1281, 2017a. observed that in the conditions of low P in the soil, the AMFs C. etunicatum and A. colombiana, had a high ME, while under high P availability (250 mg dm-1) these same inoculums had a reduction in the percentage of ME, around 20%, similar to those observed in this study. Indicating that even in extremely high P concentrations, some AMFs species, when associated with certain species, still promote benefits to the plant, even if reduced.

From the results observed with jatobazeiro, the importance of experiments that enable to know the mycorrhizal efficiency among different plant species and AMF are evident. Despite the lack of specificity, the mycorrhizal symbiosis depends on the genetic control, and this is performed by fungus and plant, as well as environmental conditions (DECLERCK et al., 1995 DECLERCK, S.; PLENCHETTE, C.; STRULLU, D.G. Mycorrhizal dependency of banana (Musa acuminata, AAA group) cultivar. Plant and Soil, The Hague, v.176, p.183-187, 1995. ; STOFFEL et al., 2016 STOFFEL, S. C. G.; ARMAS, R. D. de; GIACHINI, A. J.; ROSSI, M. J.; GONZALEZ, D.; MEYER, E.; NICOLEITE, C. H.; ROCHA-NICOLEITE, E.; SOARES, C. R. F. S. Micorrizas arbusculares no crescimento de leguminosas arbóreas em substrato contendo rejeito de mineração de carvão. Cerne, Lavras, v.22, n.2, p.181-188, 2016. ). It is noted that both the MD and the ME are relative and vary according to the AMFs species and the plant to be inoculated (ROCHA et al., 2006 ROCHA, F.S.; SAGGIN JÚNIOR, O.J.; SILVA, E.M.R.; LIMA, W.L. Dependência e resposta de mudas de cedro a fungos micorrízicos arbusculares. Pesquisa Agropecuária Brasileira, Brasília, DF, v.41, n.1, p.77-84, 2006. ).

The dendrogram obtained from the multivariate analysis of the hierarchical grouping demonstrated that the tested treatments were divided into two groups, from a subjective cut at the distance 6 (Figure 6). The first group is composed of the treatments containing the AMFs inoculations, with and without phosphate fertilization, and by the treatments without inoculation with AMFs, but they received the phosphate fertilization, indicating that these treatments are similar. The second group was composed only by treatment in which there was no inoculation with AMFs and neither the realization of the phosphate fertilization.

Considering the grouping based on the evaluated characteristics, it is observed that the jatobazeiro seedlings without mycorrhizal inoculation, but received P fertilization, presented performance similar to the seedlings that were inoculated with the AMFs, independent of the phosphorus doses. This result is important, since with the inoculation of AMFs there is lower dependence on external inputs, in this case, the phosphate fertilization, reducing production costs.

Thus, it can be verified that the AMF R. clarum species and the inoculum mixture (MIX), were efficient in the growth promotion, while the R. clarum species also provided higher biomass increment of the jatobazeiro seedlings. Based on the literature presented and before the experimental observations, it is recommended the use of the AMF R. clarum for the production of jatobazeiro seedlings, and that the minimum stay time of the seedlings in the nursery conditions, are around the 150 DAT. In future perspectives, it is suggested that other studies should be performed, such as quantification of the nutrient levels in the seedlings, besides testing other nutrients in the formation of jatobazeiro seedlings, even without soil correction.

Conclusions

Under the conditions in which this study was performed:Jatobazeiro seedlings inoculated with AMF Rhizoglomus clarum had higher biomass production;

The phosphate fertilization did not contribute to the production of jatobazeiro seedlings;

Jatobazeiro seedlings had satisfactory mycorrhizal efficiency values for the tested AMFs species, and the species has optional mycorrhizal association.

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History