ABSTRACT
The search for genetic materials resistant to adverse weather conditions has been a major focus in studies on species of economic interest. The objective of the present study was to assess the growth and photosynthesis of rubber seedlings clones under two conditions of atmospheric evaporative demand, characterized by fluctuations in temperature (TEMP) and vapor pressure deficit (VPD), associated to two water regimens. Hevea brasiliensis Muell. Arg (RRIM 600 and FX 3864) clones were assessed in two microclimates, at low (TEMP 21.2 ºC and VPD 0.29 Kpa) and high (TEMP 26.9 ºC and VPD 1.49 Kpa) atmospheric evaporative demand, under two water regimens: water deficit and well-watered. Water deficit 50% water availability was sufficient to reduce the net CO2 assimilation rate, leaf area and total chlorophyll of the clones studied that impacted growth in both microclimates. The effects of water deficit on growth and net carbon assimilation rate were intensified under high atmospheric evaporative demand. However, when comparing the two clones studied, RRIM 600 showed greater growth and photosynthesis without water restriction. The FX 3864 clone, despite the high CO2 assimilation values under high atmospheric demand and without water restriction, showed a reduced growth. The results of this study form an important basis for the selection of genotypes with the potential to develop in adverse climatic conditions. In this sense, the RRIM 600 genotype is recommended as a promising material that would best adapt under adverse climatic conditions.
Subject(s)
Photosynthesis , Rubber , Hevea/growth & development , Efficient Water UseABSTRACT
The productive potential of the rubber tree (Hevea brasiliensis) is dependent on its genetic composition, in addition to edaphoclimatic factors and management practices. However, as soil properties are not homogenous, knowing the spatial variability of soil attributes would be important to increase productivity and reduce production costs. In this context, the objective of this study was to determine the spatial variability of chemical attributes of the soil and its influence on the nutritional status and growth of rubber tree clones. Clones FX 3864, FDR 5788, CDC 312, and RRIM 600 were planted at Jaturnaíba Farm, in the municipality of Silva Jardim, Rio de Janeiro State, Brazil. The sampling sites were distributed at a spacing of 20 × 20 m on the northern and southern sides of the relief. The chemical attributes of the soil (pH, Ca2+, Mg2+, K+, P, Al3+, H+Al, sum of bases, cation exchange capacity, and base saturation) were evaluated at a depth of 020 cm in the different clone plantations. Additionally, the N, P, K, Ca, and Mg content as well as trunk circumference and total plant height, were also evaluated. Geostatistics was used to determine the spatial variability of the soil and clone attributes, while Ordinary Kriging was used to draw variability maps of the variables. A difference in the distribution of the variables, which was dependent on the slope of the relief, was detected through the maps. The southern side presented better conditions as some degradation was observed on the northern side. Certain soil characteristics influenced the distribution of the attributes of the planted clones; for example, the low concentration of Ca2+ in the soil caused Ca deficiency in the FX clone on the southern slope, indicating that liming did not supply enough nutrients for this clone. Our results showed that the variability in soil attributes influenced the nutritional status and growth of the rubber tree clones, indicating that variability maps can guide the planting and management of the rubber tree, providing more efficient management.
Subject(s)
Soil Analysis , Soil Characteristics , Hevea/growth & developmentABSTRACT
El mal suramericano de las hojas (SALB), enfermedad endémica del caucho (Hevea brasiliensis), es causado por Microcyclus ulei (forma imperfecta Fusicladium macrosporum) y constituye el principal limitante del cultivo en América, área donde el microorganismo patógeno es endémico. En forma semejante al de otros cultivos agrícolas, el manejo de esta enfermedad está condicionado a la disponibilidad de resistencia genética en el hospedero. En razón de su productividad y condición de resistencia genética, el clon FX 3864 ha sido ampliamente plantado en zonas con diferente potencialidad epidémica a la incidencia del SALB en Colombia, particularmente las denominadas de no escape a la enfermedad. Durante el 2010, plantaciones con el clon FX 3864 en fase productiva presentaron síntomas de SALB en zonas de escape ubicadas en la altillanura colombiana (departamento del Meta). En parcelas trampa ubicadas en áreas aledañas a los cultivos se estableció que la severidad promedio de la enfermedad alcanzó niveles de 5,78% en este clon. Verificada la causalidad de la enfermedad mediante observaciones al microscopio se procedió a confirmar el origen del material sobre el cual se desarrollaban las lesiones, utilizando marcadores moleculares (4 microsatélites específicos). Los resultados de la prueba permitieron confirmar la susceptibilidad del hasta hace poco resistente clon FX 3864 al SALB en Colombia. Se sugiere tomar en consideración la nueva condición de este clon y, en concordancia, reorientar los programas de fomento del cultivo advirtiendo a los agricultores sobre los riesgos potenciales de ocurrencia de la enfermedad en las nuevas áreas programadas.
South American Leaf Blight (SALB), caused by Microcyclus ulei (anamorph Fusicladium macrosporum), is an endemic major disease of the rubber tree (Hevea brasiliensis) in America. As well as in other crop systems, its management on rubber plantations relies on plant genetic resistance availability, among other means. FX 3864 is a rubber tree clone widely planted in Colombia due to its production capability and disease resistance. During 2010 SALB symptoms developed in commercial crops at the Meta region of Colombia. Crop traps located nearby the plantations showed mean disease severity levels of 5.78%. Once the causal organism was microscopically confirmed as responsible for the diseased tissue, their origin was characterized by molecular means using 4 microsatellites specific to the rubber tree. The procedure confirmed that FX 3864 was the clone of origin of the leaf tissue. SALB occurring over FX 3864 implies the need to redirect crop disease management measures to be followed on the new development areas of rubber cultivation, warning growers about potential hazards of disease incidence.