Abstract
Area planted with Eucalyptus spp. in Uruguay has largely increased in the last fi fteen years, mainly through afforestation of grasslands. Such changes in land use are known to affect soil properties, including increased soil acidity and exchangeable aluminum, decreased organic carbon content and water retention capacity, as well as changes in soil enzyme activities. The low mineralization rate of tree litter due to its high C:N ratio is suggested to be in the base of changes in soil properties. Our assumption was that the 2-year period between Eucalyptus grandis plantation and tree canopy closure allows the commercial forest to benefi t from the inclusion of an inter-cropped perennial legume. The aim of this research was to test if inter-cropping an adapted (native) legume can supply nitrogen from the atmosphere to the system, contributing to soil conservation through enhanced soil microbial activity and nutrient cycling, while improving tree growth. A fi eld experiment was carried out in a commercial forest area to assess the effects of perennial Desmanthus species (virgatus, illinoensis and bicornutus) intercropped between tree rows on soil microbial biomass and soil enzyme activities (soil quality indicators); legume shoot dry matter and total nitrogen content; and tree diameter at breast height. Enhanced soil microbial biomass, soil respiration and hydrogenase activities were associated to legume inclusion. Both D. illinoensis and D. virgatus contributed comparable amounts of nitrogen to the system when inoculated with effective rhizobia. Tree diameter 12 months after planting was 6.5 cm in average when Desmanthus spp. were intercropped and 5.6 cm when trees grew without the legume. The results indicate a direct and positive effect of intercropped legumes in Eucalyptus plantations on soil quality and early tree growth. An increase in soil microbial activities may lead to enhanced nutrient biogeochemical cycles, increased soil fertility and improved agroecosystem sustainability.
Highlights
Area planted with Eucalyptus spp. in Uruguay has strikingly increased in the last fifteen years, as a result of a governmental policy aligned with a worldwide trend aimed to increase tree planted areas in developing countries
Soil properties are known to be affected by conversion from pastures to commercial tree plantations (1) (2) (3). Such patterns were confirmed when grasslands are converted to Eucalyptus spp. plantation in Uruguay resulting in increase in soil acidity and exchangeable aluminum, decrease in organic carbon content and water retention capacity, as well as changes in soil enzyme activities (4) (5) (6)
Desmanthus spp. agronomic performance was assessed in terms of shoot dry weight (SDW) determined 120 days after seeding
Summary
Area planted with Eucalyptus spp. in Uruguay has strikingly increased in the last fifteen years, as a result of a governmental policy aligned with a worldwide trend aimed to increase tree planted areas in developing countries. Such patterns were confirmed when grasslands are converted to Eucalyptus spp. plantation in Uruguay resulting in increase in soil acidity and exchangeable aluminum, decrease in organic carbon content and water retention capacity, as well as changes in soil enzyme activities (4) (5) (6). Little studied to date in terms of their ability to fix atmospheric nitrogen, Desmanthus species seem to be somewhat promiscuous in their ability to nodulate but more specific regarding the strains with which they fix nitrogen It has been emphasized the importance of routinely include inoculation with effective rhizobia as a component of planting practices in both D. virgatus and D. illinoensis
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