RESUMO
The incorporation of biosolids to soil is a strategy aiming at the re-location of these materials in the environment with a useful end: soil fertilization. In this work, the response of two Argiudoll soils (one with more than 100 years of agriculture and the other, a virgin one) to biosolid incorporation was studied under laboratory conditions. To measure this response, soil enzymatic biodescriptors, such as dehydrogenase and urease activities, and tests related to plant physiology (the root elongation test) were employed. The addition of the biosolid to both soils had a stimulating effect though different on each soil according to the added dose. Adjustment of the regression line for dehydrogenase activity with root elongation was positive and statistically significant (p<0.001). Results suggest that biodescriptors employed were suitable for studying the impact of amended biosolids on different soils.
Assuntos
Oxirredutases/metabolismo , Raízes de Plantas/enzimologia , Raízes de Plantas/crescimento & desenvolvimento , Esgotos , Solo , Urease/metabolismo , ArgentinaRESUMO
The incorporation of biosolids to soil is a strategy aiming at the re-location of these materials in the environment with a useful end: soil fertilization. In this work, the response of two Argiudoll soils (one with more than 100 years of agriculture and the other, a virgin one) to biosolid incorporation was studied under laboratory conditions. To measure this response, soil enzymatic biodescriptors, such as dehydrogenase and urease activities, and tests related to plant physiology (the root elongation test) were employed. The addition of the biosolid to both soils had a stimulating effect though different on each soil according to the added dose. Adjustment of the regression line for dehydrogenase activity with root elongation was positive and statistically significant (p<0.001). Results suggest that biodescriptors employed were suitable for studying the impact of amended biosolids on different soils.
La incorporación de biosólidos al suelo es una estrategia que tiene como objetivo la reubicación de estos materiales en el ambiente con un fin útil, como es la fertilización del suelo. En este trabajo se estudió, en condiciones controladas de laboratorio, la respuesta de dos suelos Argiudoles (uno con más de 100 años de agricultura y otro virgen) frente a la perturbación físico-química y biótica que genera la incorporación de un biosólido. Para medir esta respuesta se emplearon dos biodescriptores edáficos (las actividades deshidrogenasa y ureasa) y un tercero referido a la fisiología vegetal, la prueba de elongación de raíces. La incorporación del biosólido en ambos suelos, en general no deprimió el funcionamiento de las actividades enzimáticas estudiadas; contrariamente, según la dosis aportada tuvo un efecto estimulante, aunque diferente, entre ambos suelos. El ajuste de la recta de regresión de la actividad deshidrogenasa con la elongación de las plántulas fue positivo y altamente significativo, lo que indica la complementaridad de ambos descriptores. Los resultados obtenidos sugieren que los biodescriptores empleados resultaron aptos para estudiar el impacto que produce la incorporación de biosólidos a suelos agrícolas.
Assuntos
Oxirredutases/metabolismo , Raízes de Plantas/enzimologia , Raízes de Plantas/crescimento & desenvolvimento , Esgotos , Solo , Urease/metabolismo , ArgentinaRESUMO
Pseudomonas fluorescens are plant growth promoting rhizobacteria (PGPR). The survival of this inoculated heterotrophic bacterium may be affected by soil organic matter content (SOM). To confirm this hypothesis, three strains of P. fluorescens: UP61, C7R12 y P190 (native of Balcarce, Buenos Aires) were inoculated, in laboratory conditions, into three argentine rhizospheric soils: two Argiudolls (Balcarce, and Zavalla, Santa Fe) and a Torrifluvens (Cipolletti, Río Negro) with different SOM: 7.2; 4.3; and 2.6%, respectibily. The results indicated that the all three isolates survival in general was not different. The slopes of the regression curves in Zavalla soil were very similars, while in the Balcarce soil the strains behaviour were very different. CO2 production was superior in the Balcarce than the Zavalla soil. These results suggest that the situations that affected the survival in the Balcarce soil may be associated with the presence of a larger number of functional microflora compared with Zavalla soil. The survival in the Cipolietti soil was the lowest; independently of the protective effect of the SOM in relation with the capability of survival of the inoculated bacteria, the scarcity of survival in this soil, specially after the great fall observed, is not attributable to the low SOM content, it might be related with its high electric conductivity. The UP61 had the best survival rate in all soils.
Assuntos
Compostos Orgânicos/análise , Pseudomonas fluorescens/fisiologia , Microbiologia do Solo , Solo/análise , Argentina , Dióxido de Carbono/análise , Pseudomonas fluorescens/genética , Pseudomonas fluorescens/isolamento & purificaçãoRESUMO
Pseudomonas fluorescens es una bacteria PGPR (plant growth promoting rhizobacteria), heterótrofa, capaz de combatir fitopatógenos edáficos. Su supervivencia podría estar favorecida por el elevado contenido de materia orgánica del suelo (MOS). Para probarlo, se inocularon, en condiciones de laboratorio, tres cepas de P. fluorescens: UP61, C7R12, y P190 (nativa de Balcarce, Buenos Aires) en suelos rizosféricos de tomate representativos de diferentes zonas de Argentina: suelo Argiudol (Balcarce, y Zavalla, Santa Fe) y suelo Torrifluvens (Cipolletti, Río Negro) (MOS %: 7,2; 4,3 y 2,6 respectivamente). Los resultados indicaron que la supervivencia de P. fluorescens en los suelos Argiudoles fue similar; aunque las pendientes de las curvas de supervivencia en el suelo de Zavalla fueron menores que las observadas en el suelo de Balcarce. La producción de CO2 fue superior en el suelo de Balcarce que en el suelo de Zavalla (4,3 y 2,8 mmol.g-1suelo), esta diferencia podría ser explicada por la existencia de una mayor presión competitiva por parte de la microflora nativa. La supervivencia en el suelo Torrifluvens resultó mínima, lo que sería atribuible a su elevada conductividad eléctrica más que al menor contenido de MOS. La cepa UP61 presentó en todos los casos la mejor supervivencia.
Pseudomonas fluorescens are plant growth promoting rhizobacteria (PGPR). The survival of this inoculated heterotrophic bacterium may be affected by soil organic matter content (SOM). To confirm this hypothesis, three strains of P. fluorescens: UP61, C7R12 y P190 (native of Balcarce, Buenos Aires) were inoculated, in laboratory conditions, into three argentine rhizospheric soils: two Argiudolls (Balcarce, and Zavalla, Santa Fe) and a Torrifluvens (Cipolletti, Río Negro) with different SOM: 7,2; 4,3; and 2,6%, respectibily. The results indicated that the all three isolates survival in general was not different. The slopes of the regression curves in Zavalla soil were very similars, while in the Balcarce soil the strains behaviour were very different. CO2 production was superior in the Balcarce than the Zavalla soil. These results suggest that the situations that affected the survival in the Balcarce soil may be associated with the presence of a larger number of functional microflora compared with Zavalla soil. The survival in the Cipolletti soil was the lowest; independently of the protective effect of the SOM in relation with the capability of survival of the inoculated bacteria, the scarcity of survival in this soil, specially after the great fall observed, is not attributable to the low SOM content, it might be related with its high electric conductivity. The UP61 had the best survival rate in all soils.
Assuntos
Compostos Orgânicos/análise , Pseudomonas fluorescens/fisiologia , Microbiologia do Solo , Solo/análise , Argentina , Dióxido de Carbono/análise , Pseudomonas fluorescens/genética , Pseudomonas fluorescens/isolamento & purificaçãoRESUMO
Pseudomonas fluorescens are plant growth promoting rhizobacteria (PGPR). The survival of this inoculated heterotrophic bacterium may be affected by soil organic matter content (SOM). To confirm this hypothesis, three strains of P. fluorescens: UP61, C7R12 y P190 (native of Balcarce, Buenos Aires) were inoculated, in laboratory conditions, into three argentine rhizospheric soils: two Argiudolls (Balcarce, and Zavalla, Santa Fe) and a Torrifluvens (Cipolletti, Río Negro) with different SOM: 7.2; 4.3; and 2.6
, respectibily. The results indicated that the all three isolates survival in general was not different. The slopes of the regression curves in Zavalla soil were very similars, while in the Balcarce soil the strains behaviour were very different. CO2 production was superior in the Balcarce than the Zavalla soil. These results suggest that the situations that affected the survival in the Balcarce soil may be associated with the presence of a larger number of functional microflora compared with Zavalla soil. The survival in the Cipolietti soil was the lowest; independently of the protective effect of the SOM in relation with the capability of survival of the inoculated bacteria, the scarcity of survival in this soil, specially after the great fall observed, is not attributable to the low SOM content, it might be related with its high electric conductivity. The UP61 had the best survival rate in all soils.