Influência genotípica na absorção e na toxidez de manganês em soja

Lavres, José; Moraes, Milton Ferreira de; Cabral, Cristiane da Silva; Malavolta, E.

doi:10.1590/s0100-06832008000100017

Cited by 14 publications

(10 citation statements)

References 28 publications

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“…The absence of toxicity signs may be due to sequestering of Mn in plant vacuoles and, thus, a decreased influence in plant metabolism [26]. The results confirm high resistance to toxicity in this forage plant since nutrient accumulation per plant (Figure 1(c)) did not affect production of dry matter (Figure 2(c)).…”

Section: Resultssupporting

confidence: 57%

Tolerance of <i>Urochloa brizantha</i> cv. MG5 to Mn Toxicity

Santos¹,

Caione²,

Souza³

et al. 2013

OJSS

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Available information of the effects of manganese nutrition on the forage genus Urochloa is scarce. In the context, this study aims to evaluate the tolerance of Urochloa brizantha cv. MG5 to Mn toxicity. The experiment was conducted in a greenhouse at the University of the State of Sao Paulo (UNESP) in the city of Jaboticabal, SP. Plants were cultivated in vases (3.5 L) filled with soil according to a completely randomized experimental design comprising of five levels of Mn (0, 15, 30, 60 and 120 mg·dm ) and four replications and cut in two periods: one is 42 days after sowing and the other is 30 days after the first one. Samples from both cuts were evaluated as to plant height, number of leaves and tillers, dry weight, Mn content and accumulation, and the green index was determined in the last cut. Manganese addition to soil caused an increase in chlorophyll content at the dosage of 68 mg·dm −3 observed in the second plant cut. Dosages of Mn above 15 mg·dm −3 did not induce increases in nutrient accumulation and in the number of leaves in the first and second cuts of the grass, and tillers in the first cut. The highest concentrations of manganese in the shoots did not produce visual symptoms of damage or a decrease in forage productivity demonstrating that Urochloa brizantha cv. MG5 has high tolerance to manganese toxicity.

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Section: Resultssupporting

confidence: 57%

Tolerance of <i>Urochloa brizantha</i> cv. MG5 to Mn Toxicity

Santos¹,

Caione²,

Souza³

et al. 2013

OJSS

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“…The organization and order of the conducting veins, as well as the integrity of the cortical cells, play a fundamental role in nutrient absorption and transport processes. If on the one hand an organized arrangement of the conducting veins can allow a more efficient absorption (Rosolem et al, 2005) at low Mn availability, on the other hand, under excess Mn in the substrate, the maintenance of the cell integrity in the epidermis, exodermis, endodermis and cortex can confer greater root compartmentalization of Mn, reducing the long-distance transport and finally diminishing the toxicity in the shoot (Lavres Jr. et al, 2008). In this context, the apoplast "compartment", or free space, apparently acts as an effective tolerance mechanism to micronutrient excess, notably in tolerant (hyperaccumulator) plants, as recently discussed by Lavres Jr. et al (2008) and Führs et al (2008).…”

Section: Resultsmentioning

confidence: 99%

“…In IAC-Foscarin 31, under normal supply as well as excess Mn in the solution (Figures 2 IIIB and IIIC), inter-cellular spaces were observed, characterized as apoplast (or apparent free space). This possibly contributes to a greater accumulation and compartmentalization of Mn in the roots, which reduces the long-distance transport and confers greater tolerance to excess Mn (Lavres Jr. et al, 2008). This phenomenon is in agreement with reports of Führs et al (2008), who described that the leaf apoplast of cowpea (Vigna unguiculata L.), also a species of the Fabaceae family, is known for playing an important role in the tolerance to Mn excess/toxicity, due to the high peroxidase activity in this compartment.…”

Section: Resultsmentioning

confidence: 99%

Changes in anatomy and root cell ultrastructure of soybean genotypes under manganese stress

Lavres

Malavolta

Nogueira

et al. 2009

Rev. Bras. Ciênc. Solo

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SUMMARYThe deleterious effects of both Mn deficiency and excess on the development of plants have been evaluated with regard to aspects of shoot anatomy, ultrastructure and biochemistry, focusing mainly on the manifestation of visual symptoms. However, there is little information in the literature on changes in the root system in response to Mn supply. The objective of this study was to evaluate the effects of Mn doses (0.5, 2.0 and 200.0 μ μ μ μ μmol L -1 ) in a nutrient solution on the anatomy of leaves and roots of the Glycine max (L.) cultivars Santa Rosa, IAC-15 and IAC-Foscarin 31. Visual deficiency symptoms were first observed in Santa Rosa and IAC-15, which were also the only cultivars where Mn-toxicity symptoms were observed. Only in IAC-15, a high Mn supply led to root diameter thickening, but without alteration in cells of the bark, epidermis, exodermis and endodermis. The degree of disorganization of the xylem vessels, in particular the metaxylem, differed in the cultivars. Quantity and shape of the palisade parenchyma cells were influenced by both Mn deficiency and toxicity. A reduction in the number of chloroplasts was observed in the three Mn-deficient genotypes. The anatomical alterations in IAC-15 due to nutritional stress were greater, as expressed in extensive root cell cytoplasm disorganization and increased vacuolation at high Mn doses. The degree of changes in the anatomical and ultrastructural organization of roots and leaves of the soybean genotypes studied differed, suggesting the existence of tolerance mechanisms to different intensities of Mn deficiency or excess.Index terms: apoplast, Glycine max, optical microscopy, root diameter. RESUMO: ALTERAÇÕES ANATÔMICAS E ULTRAESTRUTURAIS EM GENÓTIPOS DE SOJA PELA DESORDEM NUTRICIONAL EM MANGANÊSOs efeitos negativos provocados não apenas pela deficiência mas também pela toxidez de Mn no desenvolvimento das plantas têm sido avaliados considerando-se os aspectos anatômicos, de ultraestrutura e bioquímicos da parte aérea particularmente, onde os sintomas visuais são manifestados. Entretanto, há escassez na literatura de informações que abordem o sistema radicular. Os objetivos do presente estudo foram avaliar os efeitos do fornecimento de doses de Mn (0,5, 2,0 e 200,0 μmol L -1 ), em solução nutritiva, na anatomia e ultraestrutura de folhas e de raízes dos cultivares de Glycine max (L.): Santa Rosa, IAC-15 e IAC-Foscarin 31. Os sintomas visuais de deficiência foram observados primeiramente em Santa Rosa e IAC-15, os únicos a exibirem sintomas de toxidez. As doses de Mn promoveram espessamento do diâmetro radicular somente em IAC-15, porém sem alteração nas células do córtex, da epiderme, exoderme e endoderme. Os cultivares mostraram distintos graus de organização dos vasos de xilema, particularmente nos elementos de metaxilema. O número e a conformação das células dos mesofilos paliçádicos foram alterados pelas condições de deficiência e toxidez. Houve redução na quantidade de cloroplastos, nos três genótipos, somente na condição de deficiência...

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“…Para quantificação do comprimento e da superfície radicular de cada unidade experimental, a raiz de cada planta foi coletada inteira, cortou-se então vertical e horizontalmente o volume de raízes, evitando-se a raiz pivotante (LAVRES JUNIOR et al, 2008). Em seguida, essa subamostra foi colocada em copo plástico contendo água desionizada, e então armazenada na temperatura de ± 10 ºC, em geladeira (NOORDWIJK; FLORIS, 1979), a fim de se evitar a desidratação e a perda de matéria seca durante a manipulação (separação das raízes na cubeta do scanner), devido à respiração.…”

Section: Avaliação Do Comprimento E Da Superfície Total De Raízesunclassified

“…Os valores totais de comprimento e de superfície (área superficial cilíndrica) foram prontamente calculados pelo software, relacionando-se os valores da amostra e de sua matéria seca com a matéria seca total de raízes de cada unidade experimental (LAVRES JUNIOR et al, 2008). JUNIOR et al, 2009;2012).…”

Section: Avaliação Do Comprimento E Da Superfície Total De Raízesunclassified

Interação cálcio e boro na fixação biológica de nitrogênio na soja: avaliação morfológica, ultraestrutural e da atividade da nitrogenase

Garrone¹

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Influência genotípica na absorção e na toxidez de manganês em soja

Abstract: RESUMO

Cited by 14 publications

References 28 publications

Tolerance of <i>Urochloa brizantha</i> cv. MG5 to Mn Toxicity

Tolerance of <i>Urochloa brizantha</i> cv. MG5 to Mn Toxicity

Changes in anatomy and root cell ultrastructure of soybean genotypes under manganese stress

Interação cálcio e boro na fixação biológica de nitrogênio na soja: avaliação morfológica, ultraestrutural e da atividade da nitrogenase

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Influência genotípica na absorção e na toxidez de manganês em soja

Abstract: RESUMO

Cited by 14 publications

References 28 publications

Tolerance of &lt;i&gt;Urochloa brizantha&lt;/i&gt; cv. MG5 to Mn Toxicity

Tolerance of &lt;i&gt;Urochloa brizantha&lt;/i&gt; cv. MG5 to Mn Toxicity

Changes in anatomy and root cell ultrastructure of soybean genotypes under manganese stress

Interação cálcio e boro na fixação biológica de nitrogênio na soja: avaliação morfológica, ultraestrutural e da atividade da nitrogenase

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Tolerance of <i>Urochloa brizantha</i> cv. MG5 to Mn Toxicity

Tolerance of <i>Urochloa brizantha</i> cv. MG5 to Mn Toxicity