Assessing and modeling the role of the native legume Lupinus meridanus in fertility restoration in a heterogeneous mountain environment of the tropical Andes

► Lupinus meridanus, a paramo legume abundant in fallow plots, fixes 84% of its N. ► Its biomass peaks after 5 years fallow, but high variability exists between plots. ► Cumulated N2 fixed after 10 years of fallow oscillated between 0 and 23.5gm−2. ► A stochastic succession model correctly simulated...

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Bibliographic Details
Published in:Agriculture, ecosystems & environment ecosystems & environment, 2012-09, Vol.159, p.29-39
Main Authors: Sarmiento, Lina, Abadín, Josefa, González-Prieto, Serafín, Carballas, Tarsy
Format: Article
Language:English
Subjects:
Age
Agriculture
Agronomy. Soil science and plant productions
Andes
Biological and medical sciences
Biomass
Environmental heterogeneity
fallow
Fertility
Fixation
Fundamental and applied biological sciences. Psychology
General agroecology
General agroecology. Agricultural and farming systems. Agricultural development. Rural area planning. Landscaping
General agronomy. Plant production
Generalities. Agricultural and farming systems. Agricultural development
Legumes
Long fallow agriculture
Lupinus
Mathematical models
mountains
Nitrogen fixation
organic soils
Potato
potatoes
probability
Restoration
Solanum tuberosum
Succession modeling
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Summary:► Lupinus meridanus, a paramo legume abundant in fallow plots, fixes 84% of its N. ► Its biomass peaks after 5 years fallow, but high variability exists between plots. ► Cumulated N2 fixed after 10 years of fallow oscillated between 0 and 23.5gm−2. ► A stochastic succession model correctly simulated N2 fixation and its variability. ► Sowing the legume at the start of the fallow period can duplicate potato yield. The role of the native legume Lupinus meridanus on fertility restoration in long fallow agriculture of the Venezuelan Andes was analyzed using field and laboratory data and a process-based model of succession (FAPROM). L. meridanus biomass was estimated in 117 plots with 1–12 years in fallow and N2 fixation was calculated using the natural 15N abundance. Additionally, the legume was sowed at the beginning of the fallow period in three plots and, after two years, its effect on a posterior potato crop was evaluated. FAPROM was used to simulate L. meridanus development and N2 fixation during the fallow period in competition with other five species; after the early introduction of the legume; and in L. meridanus monoculture. High biomass variability between plots of the same age was observed in the field (coefficients of variability exceeding 100%). In consequence, the estimated N2 fixation was also variable, increasing during the fallow period to attain a maximum after five years (1.36±2.84gNm−2year−1) and decreasing afterwards. Cumulative fixation after 10 years in fallow was estimated in 4gm−2, a modest contribution to fertility restoration. Nevertheless, this cumulative value rose to 23.5gm−2 when the potential fixation was estimated considering the plot of each fallow age where L. meridanus attained its highest biomass. FAPROM was modified to include two stochastic sources of variability, in initial soil organic N and in the probability of colonization of the different species, and succeeded to reproduce mean values and the variability in L. meridanus biomass and N2 fixation. Model and experimental data indicate that the early introduction of the legume is a promising strategy to improve potato production and shorten the fallow period. This species has a high potential to fix N2 but its performance is hampered by the low probability of plot colonization.
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2012.06.018