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2000 ruthenium, Ru ruthenium, Ru I 7800 -019Water π-Donation in trans-Tetraammineruthenium(II): Effect on Coordinated-Water Properties Induced by a trans NO Ligand.-zinc amalgam, 0.05 M HCl) and subsequent cation exchange (Bio Rad AG-50W X8, Na + form, HCl; 40% yield). (I) crystallizes in the monoclinic space group P2 1 /c with Z = 4 (single crystal XRD). The compound is further characterized by electronic, IR, and ESR spectroscopy, cyclic voltammetry, and DFT and ZINDO/S calculations. -(BEZERRA, CICERO W. B.; DA SILVA, SEBASTIAO; GAMBARDELLA, MARIA T. P.; SANTOS, REGINA H. A.; PLICAS, LIDIA M. A.; TFOUNI, ELIA; FRANCO, DOUGLAS W.; Inorg. Chem. 38 (1999) 25, 5660-5667; Inst.

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<b>Cowpea nodulation, biomass yield and nutrient uptake, as affected by biofertilizers and rhizobia, in a sodic soil amended with <i>Acidithiobacillus</i></b> - doi: 10.4025/actasciagron.v35i4.16994

Stamford

Silva

Santos

et al. 2013

Acta Sci. Agron.

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ABSTRACT. Sodic soils require application of amendments as gypsum and organic matter. Many types of compost have been tested in sodic soils reclamation; however, these materials often do not provide satisfactory pH reduction. A recent study reported effective effects applying mixture of gypsum and sulfur inoculated with Acidithiobacillus in sodic soils with high pH and exchangeable sodium, though the effects on plant parameters were not evaluated. The present study was conducted to verify the effects of BPK rock biofertilizers on nodulation, biomass yield and nutrient uptake in cowpea compared with mineral fertilizer after sodic soil amendment. The BPK biofertilizers and PK mineral fertilizer were applied at different rates, and plants were inoculated with effective rhizobia strains. A control that did not receive PK fertilization was included. The results indicated that gypsum and sulfur with Acidithiobacillus reduced the soil's pH and the amount of soil exchangeable sodium. BPK rock biofertilizer increased cowpea nodulation, biomass yield and nutrient uptake. The native rhizobia in the soil exhibited effectiveness in cowpea growth; displaying similar results compared with the rhizobia inoculated plants. BPK biofertilizers may be used as alternative to mineral PK fertilizers in sodic soils after the application of gypsum and sulfur inoculated with Acidithiobacillus.Keywords: Vigna unguiculata, soil amendment, sulfur-gypsum interaction, sulfur oxidation, sulfur oxidizing bacteria.Nodulação, produção de biomassa e absorção de nutrientes em caupi por biofertilizantes e rizóbios em um solo sódico com Acidithiobacillus RESUMO. Solos salinos sódicos necessitam aplicação de condicionadores como gesso e matéria orgânica. Vários compostos foram avaliados como condicionadores para solos sódicos; entretanto, frequentemente estes materiais não promovem satisfatória redução no pH. Pesquisa recente demonstrou efeitos efetivos da aplicação da mistura de gesso e enxofre inoculado com Acidithiobacillus em solos sódicos com alto pH e sódio solúvel, todavia, os efeitos na planta não foram avaliados. O trabalho procurou verificar os efeitos de biofertilizantes de rochas (BPK), na nodulação, produção de biomassa e absorção de nutrientes em caupi comparado com fertilizantes minerais após adição dos condicionadores. Biofertilizantes (BPK) e fertilizantes minerais PK foram aplicados em diferentes doses, e as plantas inoculadas com rizóbios efetivos. Tratamento controle sem fertilização com PK foi incluído. Os resultados indicaram efeito do gesso e enxofre com Acidithiobacillus na redução do pH e sódio trocável. O biofertilizante de rochas (BPK) aumentou a nodulação, a biomassa e a absorção de nutrientes. Os rizóbios nativos do solo favoreceram o crescimento do caupi, apresentando resultados similares quando comparado com plantas inoculadas com rizóbios efetivos. O biofertilizante de rochas (BPK) mostrou ser alternativa para fertilizantes minerais com P e K em solos sódicos, após adição de gesso e enxofre inoculado com Acidithiobacillu...

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Sebastião da Silva

Effect of gypsum and sulfur with Acidithiobacillus on soil salinity alleviation and on cowpea biomass and nutrient status as affected by PK rock biofertilizer

ChemInform Abstract: Water π‐Donation in trans‐Tetraammineruthenium(II): Effect on Coordinated‐Water Properties Induced by a trans NO Ligand.

<b>Cowpea nodulation, biomass yield and nutrient uptake, as affected by biofertilizers and rhizobia, in a sodic soil amended with <i>Acidithiobacillus</i></b> - doi: 10.4025/actasciagron.v35i4.16994

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