The effects of arbuscular mycorrhizal fungi inoculation on Euterpe oleracea mart. (açaí) seedlings

Chu, Elizabeth Ying

doi:10.1590/S0100-204X1999000600013

Abstracts

With the objective of verifying the response of Euterpe oleracea seedlings to seven arbuscular mycorrhizal fungi species, an experimental trial was carried out under greenhouse conditions. Seeds of E. oleracea were sown in carbonized rice husk. Germinating seeds were initially transferred to plastic cups, containing fumigated Reddish Yellow Quartz Sand and inoculated with arbuscular mycorrhizal fungi. Two months later, seedlings were transferred to 2 kg black plastic bags, containing the same soil without fumigation. Plant growth and mineral nutrients were evaluated nine months after mycorrhizal inoculation. Differential effects were observed among the species tested, with Scutellispora gilmorei being the most effective ones in promoting growth and nutrient content of E. oleracea seedlings. The increment resulted from inoculation with S. gilmorei were 92% in total plant height, 116% in stem diameter, 361% in dry matter production, 191% in N, 664% in P, 46% in K, 562% in Ca, 363% in Mg and 350% in Zn contents, comparing to uninoculated controls. Infected root length was positively correlated to nutrient content and plant growth. It was concluded that growth and nutrient uptake of E. oleracea seedlings could be significantly improved by inoculation of effective arbuscular mycorrhizal fungi.

plant growth; nutrient content; infected root length

Com objetivo de verificar a resposta das plântulas de Euterpe oleracea Mart. à inoculação de sete espécies de fungos micorrízicos arbusculares, foi realizado um experimento em casa de vegetação. Sementes de E. oleracea germinadas em casca de arroz carbonizada foram inicialmente transferidas para copos de plástico contendo Areia Quartzosa Vermelho-Amarela fumigada, e nelas inoculados fungos micorrízicos arbusculares. Dois meses depois, as plântulas foram repassadas para sacos de plástico preto contendo o mesmo solo, sem fumigação. Foram avaliados o crescimento e a nutrição mineral das plantas nove meses após a inoculação. Efeitos diferenciados foram observados entre as sete espécies testadas. Scutellispora gilmorei foi a espécie mais efetiva em promover o crescimento das plantas de E. oleracea e a absorção de nutrientes por elas. O incremento resultante da inoculação com S. gilmorei foi de 92% em altura total da planta, 116% em diâmetro do caule, 361% em produção de matéria seca, 191% em N, 664% em P, 46% em K, 562% em Ca, 363% em Mg e 350% em Zn absorvidos, em comparação com o controle sem inoculação. Houve correlações positivas entre comprimento de raiz infectada, crescimento da planta e nutrientes absorvidos. Os resultados permitiram concluir que plantas de E. oleracea quando inoculada com espécie eficiente de fungo micorrízico arbuscular pode ter um aumento significativo no crescimento e absorção de nutrientes.

crescimento da planta; nutriente absorvido; comprimento da raiz infectada

The effects of arbuscular mycorrhizal fungi inoculation on Euterpe oleracea mart. (açaí) seedlings^¹ 1 Accepted for publication on August 27, 1998. 2 Agronomist, M.Sc., Embrapa-Centro de Pesquisa Agro-florestal da Amazônia Oriental (CPATU), Trav. Dr. Enéas Pinheiros/n, Bairro do Marco, Caixa Postal 48, CEP 66095-100 Belém, PA, Brazil. E-mail: beth.bel@zaz.com.br

Elizabeth Ying Chu² 1 Accepted for publication on August 27, 1998. 2 Agronomist, M.Sc., Embrapa-Centro de Pesquisa Agro-florestal da Amazônia Oriental (CPATU), Trav. Dr. Enéas Pinheiros/n, Bairro do Marco, Caixa Postal 48, CEP 66095-100 Belém, PA, Brazil. E-mail: beth.bel@zaz.com.br

ABSTRACT - With the objective of verifying the response of Euterpe oleracea seedlings to seven arbuscular mycorrhizal fungi species, an experimental trial was carried out under greenhouse conditions. Seeds of E. oleracea were sown in carbonized rice husk. Germinating seeds were initially transferred to plastic cups, containing fumigated Reddish Yellow Quartz Sand and inoculated with arbuscular mycorrhizal fungi. Two months later, seedlings were transferred to 2 kg black plastic bags, containing the same soil without fumigation. Plant growth and mineral nutrients were evaluated nine months after mycorrhizal inoculation. Differential effects were observed among the species tested, with Scutellispora gilmorei being the most effective ones in promoting growth and nutrient content of E. oleracea seedlings. The increment resulted from inoculation with S. gilmorei were 92% in total plant height, 116% in stem diameter, 361% in dry matter production, 191% in N, 664% in P, 46% in K, 562% in Ca, 363% in Mg and 350% in Zn contents, comparing to uninoculated controls. Infected root length was positively correlated to nutrient content and plant growth. It was concluded that growth and nutrient uptake of E. oleracea seedlings could be significantly improved by inoculation of effective arbuscular mycorrhizal fungi.

Index terms: plant growth, nutrient content, infected root length.

Efeitos da inoculação de fungos micorrízicos arbusculares em mudas de Euterpe oleracea mart. (açaí)

RESUMO - Com objetivo de verificar a resposta das plântulas de Euterpe oleracea Mart. à inoculação de sete espécies de fungos micorrízicos arbusculares, foi realizado um experimento em casa de vegetação. Sementes de E. oleracea germinadas em casca de arroz carbonizada foram inicialmente transferidas para copos de plástico contendo Areia Quartzosa Vermelho-Amarela fumigada, e nelas inoculados fungos micorrízicos arbusculares. Dois meses depois, as plântulas foram repassadas para sacos de plástico preto contendo o mesmo solo, sem fumigação. Foram avaliados o crescimento e a nutrição mineral das plantas nove meses após a inoculação. Efeitos diferenciados foram observados entre as sete espécies testadas. Scutellispora gilmorei foi a espécie mais efetiva em promover o crescimento das plantas de E. oleracea e a absorção de nutrientes por elas. O incremento resultante da inoculação com S. gilmorei foi de 92% em altura total da planta, 116% em diâmetro do caule, 361% em produção de matéria seca, 191% em N, 664% em P, 46% em K, 562% em Ca, 363% em Mg e 350% em Zn absorvidos, em comparação com o controle sem inoculação. Houve correlações positivas entre comprimento de raiz infectada, crescimento da planta e nutrientes absorvidos. Os resultados permitiram concluir que plantas de E. oleracea quando inoculada com espécie eficiente de fungo micorrízico arbuscular pode ter um aumento significativo no crescimento e absorção de nutrientes.

Termos para indexação: crescimento da planta, nutriente absorvido, comprimento da raiz infectada.

INTRODUCTION

Euterpe oleracea is a native palm tree of Amazon, which grows both in periodically flooded humid area and in dry land. Juice of its fruit is a very popular aliment for local people and its palm heart is used for palmetto industries. Due to the promising perspective of the internal and external markets of palmetto, producers are interested in commercial plantation of this palm tree (Nogueira et al., 1995). Although E. oleracea is a rustic plant, slow inicial growth and considerable mortality of seedlings have been the main problems to its successful establishment in the field (Bovi et al., 1987).

Benefits from mycorrhizal inoculation were observed in many tree species, with remarks on plant growth, nutrient uptake and seedling´s survival rate (Janos, 1980). Little is known about the mycorrhizal inoculation effects on E. oleracea.

The objective of this study was to investigate the response of E. oleracea seedlings to inoculation of seven arbuscular mycorrhizal fungi species under greenhouse conditions.

MATERIAL AND METHODS

The experiment was carried out in the research center of Embrapa-CPATU in Belém, State of Pará, Brazil. Seeds of E. oleracea were sown in carbonized rice husk. Right after germination, seedlings were transfered to the plastic cups, containing 500 mL of fumigated Reddish Yellow Quartz Sand which showed the following chemical characteristics: pH in water = 5.1; Al = 0.3 mmol_c/kg; Ca+Mg = 1.5 mmol_c/kg; Ca = 0.9 mmol_c/kg; K= 31 mg/kg and P = 7 mg/kg, to ensure the multiplication of the introduced arbuscular mycorrhizal fungi (AMF). The species of AMF used in this study are presented in Table 1. The AMF were previously multiplied in culture pots, containing Brachiaria decumbens Stapf as host plant. Inoculation was done by deposition of 30 g of soil inoculum, a mixture of soil + 300-400 spores of AMF + root segments of Brachiaria decumbens, right underneath the germinating seeds whereas for the uninoculated controls, the same amount of fumigated soil was used instead. Ten mL of a microbial suspension, which was prepared by filtering 5x of the mixed soil inoculum, were added to all plastic cups. Two months later, all the seedlings were transfered once again to black plastic bags, containing 2 kg of the same soil without fumigation. Throughout the experiment, all the seedlings had received four applications of 10 mL of a complete nutrient solution per bag (Bolly-Jones, 1956). The experimental design was completely randomized with ten repetitions per treatment and one plant per replicate. Nine months after the inoculation with AMF, all the seedlings were evaluated for plant growth, nutrient concentration and content, percentages of infected root length, growth and nutrient increment. At harvest, total plant height (leaf + stem) and stem diameter (at soil level) were taken. The aerial part of the plant was separated from the root at soil level and washed with distilled water. Root system was carefully removed from the soil and washed thoroughly with tap water. A part of the roots was cleared and stained (Phillips & Hayman, 1970) and the percentage of root length colonized by AMF was determined by microscopic observation of 25 root segments of 1cm long per plant (Giovannetti & Mosse, 1980). The shoot and the rest of the root system were then dried at 70⁰C until reach the constant dry weight. Nutrient concentrations and contents were determined on dried shoot. Percentages of growth and nutrient increment were calculated by: (value of inoculated plant - value of uninoculated plant)/value of uninoculated plant x 100. Analysis of variance was performed on all data and all treatment means were further separated by Tukey´s test for significant differences at P< 0.05.

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RESULTS AND DISCUSSION

Differential effects were observed among the species tested (Table 2). The AMF species, Scutellispora gilmorei, Acaulospora sp., Gigaspora margarita and Entrophospora colombiana increased significantly total plant height, stem diameter and dry matter production of Euterpe oleracea seedlings in comparison with uninoculated controls. Scutellispora heterogama, Gigaspora sp., and Scutellispora sp. showed no effects on plant growth of E. oleracea seedlings. Different growth responses to several tropical AMF species inoculation were also reported on cassava (Sieverding & Howeler, 1985), maize (Diederichs, 1991), urucu (Chu & Kato, 1992) and rubber tree (Ikram et al., 1993). The percentages of root length infected by effective species of AMF were much higher than those of uneffective ones, so did the number of spores recovered from the soil at the end of the experiment. Since the seedlings had been in not fumigated soil for seven months, it was expected to find infected root segments and spores of indigenous AMF from the uninoculated controls, but their effectivenesses were much lower than those introduced effective ones. The same result was observed on eight months old Bactris gasipaes seedlings, where the percentages of root colonization were 53% and 13% for the inoculated and uninoculated ones, respectively (Sudo et al., 1996).

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S. gilmorei, Acaulospora sp. and G. margarita increased significantly both P and Ca concentrations and contents of the shoot (Table 3). According to Bovi et al. (1987), application of 1g of single superphosphate per kilogram of soil increased growth of E. oleracea seedling in low P content soil. Thus, the increased absorption of P due to mycorrhizal inoculation could certainly contribute to the growth response of E. oleracea seedlings. The increased Ca content could be an indirect effect of reduced P concentration in the soil solution which favors the equilibrium of exchangeable and solution form in the direction of solution form (Samuel et al., 1993). Since Ca is a polyphosphate granule constituent in hyphae (Vander Zaag et al., 1979) which can function in the transference of P from hyphae to plant by stimulating the production of alkaline phosphatase the increased uptake of Ca can indirectly contribute to the growth response of E. oleracea seedlings. Better growth response due to significant increase in uptake of P and Ca was also observed in the vegetatively propagated Theobroma cacao L. (Chulan & Martin, 1992). N and K concentrations were reduced in these treatments. The reduction of N concentration apparently results from the dilution effect found in a larger plant, since the N content of these treatments was superior to the uninoculated controls (Jarrel & Beverly, 1981). The reduced K concentration could be attributed to the significant increase in Ca concentration. Both Ca and Mg compete with K for entry into plants. When the absorption of either one or both increases, uptake of K reduces (Samuel et al., 1993). Thus, the availability of K is more dependent on its relative concentration to that of Ca and Mg than on the total quantity of K present in the soil. No difference was observed in Mg concentration among treatments and the highest Zn concentration was found in seedlings inoculated with G. margarita. However, Mg and Zn contents were significantly increased by inoculation with S. gilmorei, Acauloapora sp. or G. margarita.

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According to the results (Tables 2 and 3), the effectiveness that was determined by growth and nutrient increments of seven species of AMF tested can be arranged in the following order: S. gilmorei > Acaulospora sp. >G. margarita > E. colombiana > S. heterogama > Gigaspora sp. > Scutellospora sp. The increments resulted from inoculation with S. gilmorei were 92% in plant height, 116% in stem diameter, 361% in dry matter production, 191% in N content, 664% in P content, 46% in K content, 562% in Ca content, 363% in Mg content and 350% in Zn content. The species of S. gilmorei, Acaulospora sp. and Gigaspora sp. had been tested on hybrid seedlings of oil palm (Dura x Pisifera). The greatest increments of 47% in plant height and 133% in leaf area were found in six months old seedlings inoculated with S. gilmorei while the greatest increase of 124% in dry matter production resulted from the inoculation of Gigaspora sp. Both Gigaspora sp. and Acaulospora sp. increased P content of seedlings by 369% and 351%, respectively (Chu, 1997). Significant growth increment was also observed in eight months old hybrid seedlings of palm (E. oleracea x E. edulis) inoculated with Glomus clarum or with Acaulospora scrobiculata (Sudo et al., 1996). Inoculation with mixed inoculum of Glomus clarum, Glomus etunicatum and G. margarita increased 45% in plant height, 22% in stem diameter, 126% in dry matter production, 180% in leaf area, 70% in P content, 80% in K content and 159% in N content of B. gasipaes seedling (Sudo et al., 1996). Since mycorrhizal infection is universal in plant kingdom (Gerdemann, 1968), the effect of inoculation certainly depends on the right host-AMF combination, the native microbial population and the soil conditions.

The genetic heterogeneity makes Euterpe a genus difficult to work with, due to the large variation in growth response within replicates. A large number of plants are usually recommended to be used in the field experiment to diminish the heterogeneity effect (Bovi et al., 1987). Although more than 40% of the variation coefficient was found in dry matter production and nutrient content under this greenhouse trial, significant differences between treatments had been obtained.

Significant positive correlation were found between growth response and percentage of infected root length; growth response and nutrient content; nutrient content and percentage of infected root length. N and K concentrations were negatively correlated with growth response and percentage of infected root length (Table 4). Significant negative correlation between dry matter of aerial part and K concentration was also observed in coffee seedling inoculated with AMF (Saggin-Júnior et al., 1994).

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The results show that it is possible to obtain the optimum size of E. oleracea seedling (50-100 cm) for better survival rate in a shorter period of time, inoculating with effective mycorrhizal fungi. Still the effectiveness of S. gilmorei, Acaulospora sp. and Gigaspora sp. needs to be tested under field conditions.

CONCLUSIONS

1. Euterpe oleracea is a mycorrhizal dependent plant and the inoculation of effective arbuscular mycorrhizal fungi could increase significantly its growth and nutrient uptake.

2. Scutellispora gilmorei and Acaulospora sp. are the promising arbuscular mycorrhiza species to be used in the seedling formation of Euterpe oleracea under greenhouse conditions.

REFERENCES

BOLLY-JONES, E.W. Visual symptoms of mineral deficiencies of Hevea brasiliensis Jornal of Rubber Research Institute, Malaya, v.14, p.493-579, 1956.
BOVI, M.L.A.; GODOY JUNIOR, G.; SÁES, L.A. Pesquisas com os gêneros Euterpe e Bactris no Instituto Agronômico de Campinas. O Agronômico, Campinas, São Paulo, v.39, n.2, p.129-172, maio/ago. 1987.
CHU, E.Y. Influência de fungos micorrízicos arbusculares e níveis de adubação no crescimento inicial das mudas de dendê Belém: Embrapa-CPATU, 1997. 20p. (Embrapa-CPATU. Boletim de Pesquisa, 176).
CHU, E.Y.; KATO, O.R. Efeito da inoculação de fungos micorrízicos vesicular-arbusculares em urucuzeiro (Bixa orellana L.) Belém: Embrapa-CPATU, 1992. 15p. (Embrapa-CPATU. Boletim de Pesquisa, 128).
CHULAN, H.A.; MARTIN, K. The vesicular-arbuscular (VA) mycorrhiza and its effects on growth of vegetatively propagated Theobroma cacao L. Plant and Soil, The Hagne, v.144, p.227-233, 1992.
DIEDERICHS, C. Influence of different P sources on the efficiency of several tropical endomycorrhizal fungi in promoting the growth of Zea mays L. Fertilizer Research, Netherlands, v.30, p.39-46, 1991.
GERDEMANN, J.W. Mycorrhiza and plant growth. Annual Review of Phytopathology, Palo Alto, v.6, p.397-418, 1968.
GIOVANNETTI, M.; MOSSE, B. An evaluation of techniques for measuring vesicular-arbuscular mycorrhizal infection in roots. New Phytology, London, v.84, p.489-500,1980.
IKRAM, A.; MAHMUD, A.W.; OTHMAN, H. Growth response of Hevea brasiliensis seedling rootstock to inoculation with vesicular-arbuscular mycorrhizal fungal species in steam-sterilised soil. Journal of Natural Rubber Research, Kuala Lumpur, v.8, n.3, p.231-242, 1993.
JANOS, D.P. Vesicular-arbuscular mycorrhizae affect lowland tropical rain forest plant growth. Ecology, Ithaca, v.61, n.1, p.151-162, 1980.
JARREL, W.M.; BEVERLY, R.B. The dilution effect in plant nutrition studies. Advances in Agronomy, New York, v.34, p.197-224, 1981.
NOGUEIRA, O.L.; CARVALHO, C.J.R. de; MÜLLER, C.H.; GALVÃO, E.U.P.; SILVA, H.M. e; RODRIGUES, J.E.L.F.; OLIVEIRA, M.S.P. de; CARVALHO, J.E.U. de; ROCHA NETO, O.G. da; NASCIMENTO, W.M.O. do; CALZAVARA, B.B.G. A cultura do açaí Brasília: Embrapa-SPI, 1995. 50p. (Coleção Plantar, 26).
PHILLIPS, J.M.; HAYMAN, O.S. Improved procedures for clearing roots and staining parasitic and vesicular-arbuscular mycorrhizal fungi for rapid assessment of infection. Transactions of British Mycology Society, London, v.55, p.158-161, 1970.
SAGGIN-JÚNIOR, O.J.; SIQUEIRA, J.O.; GUIMARÃES, P.T.G.; OLIVEIRA, E. Interação fungos micorrízicos versus superfosfato e seus efeitos no crescimento e teores de nutrientes do cafeeiro em solo não fumigado. Revista Brasileira de Ciência do Solo, Campinas, v.18, p.27-36, 1994.
SAMUEL, L.T.; WERNEI, L.N.; JAMES, O.B.; JOHN, L.H. Soil fertility and fertilizers New York: MacMillan, 1993. 289p.
SIEVERDING, E.; HOWELER, R.H. Influence of species of VA mycorrhizal fungi on cassava yield response to phosphorus fertilization. Plant and Soil, The Hagne, v.88, p.213-221, 1985.
SUDO, A.; SILVA, E.M.R. da; BOVI, M.L.A.; ALMEIDA, D.L. de; COZZOLINO, K. Produção de mudas de pupunheira colonizadas por fungos micorrízicos arbusculares. Revista Brasileira de Ciência do Solo, Campinas, v.20, p.529-532, 1996.
VANDER ZAAG, P.; FOX, R.L.; PENA, R.S. de la; YOST, R.S. P nutrition of cassava including mycorrhizal effects on P, K, S, Zn and Ca uptake. Field Crops Research, Amsterdam, v.2, p.253-263, 1979.

¹

Accepted for publication on August 27, 1998.

²

Agronomist, M.Sc., Embrapa-Centro de Pesquisa Agro-florestal da Amazônia Oriental (CPATU), Trav. Dr. Enéas Pinheiros/n, Bairro do Marco, Caixa Postal 48, CEP 66095-100 Belém, PA, Brazil. E-mail:

beth.bel@zaz.com.br

Publication Dates

Publication in this collection
19 May 2006
Date of issue
June 1999

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] BOLLY-JONES, E.W. Visual symptoms of mineral deficiencies of Hevea brasiliensis Jornal of Rubber Research Institute, Malaya, v.14, p.493-579, 1956.

[2] BOVI, M.L.A.; GODOY JUNIOR, G.; SÁES, L.A. Pesquisas com os gêneros Euterpe e Bactris no Instituto Agronômico de Campinas. O Agronômico, Campinas, São Paulo, v.39, n.2, p.129-172, maio/ago. 1987.

[3] CHU, E.Y. Influência de fungos micorrízicos arbusculares e níveis de adubação no crescimento inicial das mudas de dendê Belém: Embrapa-CPATU, 1997. 20p. (Embrapa-CPATU. Boletim de Pesquisa, 176).

[4] CHU, E.Y.; KATO, O.R. Efeito da inoculação de fungos micorrízicos vesicular-arbusculares em urucuzeiro (Bixa orellana L.) Belém: Embrapa-CPATU, 1992. 15p. (Embrapa-CPATU. Boletim de Pesquisa, 128).

[5] CHULAN, H.A.; MARTIN, K. The vesicular-arbuscular (VA) mycorrhiza and its effects on growth of vegetatively propagated Theobroma cacao L. Plant and Soil, The Hagne, v.144, p.227-233, 1992.

[6] DIEDERICHS, C. Influence of different P sources on the efficiency of several tropical endomycorrhizal fungi in promoting the growth of Zea mays L. Fertilizer Research, Netherlands, v.30, p.39-46, 1991.

[7] GERDEMANN, J.W. Mycorrhiza and plant growth. Annual Review of Phytopathology, Palo Alto, v.6, p.397-418, 1968.

[8] GIOVANNETTI, M.; MOSSE, B. An evaluation of techniques for measuring vesicular-arbuscular mycorrhizal infection in roots. New Phytology, London, v.84, p.489-500,1980.

[9] IKRAM, A.; MAHMUD, A.W.; OTHMAN, H. Growth response of Hevea brasiliensis seedling rootstock to inoculation with vesicular-arbuscular mycorrhizal fungal species in steam-sterilised soil. Journal of Natural Rubber Research, Kuala Lumpur, v.8, n.3, p.231-242, 1993.

[10] JANOS, D.P. Vesicular-arbuscular mycorrhizae affect lowland tropical rain forest plant growth. Ecology, Ithaca, v.61, n.1, p.151-162, 1980.

[11] JARREL, W.M.; BEVERLY, R.B. The dilution effect in plant nutrition studies. Advances in Agronomy, New York, v.34, p.197-224, 1981.

[12] NOGUEIRA, O.L.; CARVALHO, C.J.R. de; MÜLLER, C.H.; GALVÃO, E.U.P.; SILVA, H.M. e; RODRIGUES, J.E.L.F.; OLIVEIRA, M.S.P. de; CARVALHO, J.E.U. de; ROCHA NETO, O.G. da; NASCIMENTO, W.M.O. do; CALZAVARA, B.B.G. A cultura do açaí Brasília: Embrapa-SPI, 1995. 50p. (Coleção Plantar, 26).

[13] PHILLIPS, J.M.; HAYMAN, O.S. Improved procedures for clearing roots and staining parasitic and vesicular-arbuscular mycorrhizal fungi for rapid assessment of infection. Transactions of British Mycology Society, London, v.55, p.158-161, 1970.

[14] SAGGIN-JÚNIOR, O.J.; SIQUEIRA, J.O.; GUIMARÃES, P.T.G.; OLIVEIRA, E. Interação fungos micorrízicos versus superfosfato e seus efeitos no crescimento e teores de nutrientes do cafeeiro em solo não fumigado. Revista Brasileira de Ciência do Solo, Campinas, v.18, p.27-36, 1994.

[15] SAMUEL, L.T.; WERNEI, L.N.; JAMES, O.B.; JOHN, L.H. Soil fertility and fertilizers New York: MacMillan, 1993. 289p.

[16] SIEVERDING, E.; HOWELER, R.H. Influence of species of VA mycorrhizal fungi on cassava yield response to phosphorus fertilization. Plant and Soil, The Hagne, v.88, p.213-221, 1985.

[17] SUDO, A.; SILVA, E.M.R. da; BOVI, M.L.A.; ALMEIDA, D.L. de; COZZOLINO, K. Produção de mudas de pupunheira colonizadas por fungos micorrízicos arbusculares. Revista Brasileira de Ciência do Solo, Campinas, v.20, p.529-532, 1996.

[18] VANDER ZAAG, P.; FOX, R.L.; PENA, R.S. de la; YOST, R.S. P nutrition of cassava including mycorrhizal effects on P, K, S, Zn and Ca uptake. Field Crops Research, Amsterdam, v.2, p.253-263, 1979.

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The effects of arbuscular mycorrhizal fungi inoculation on Euterpe oleracea mart. (açaí) seedlings

Efeitos da inoculação de fungos micorrízicos arbusculares em mudas de Euterpe oleracea mart. (açaí)

Abstracts

Publication Dates