Quantifying soil carbon stocks and humification through spectroscopic methods: a scoping assessment in EMBU-Kenya

Published online: 12 Jan 2019A soil carbon assessment was performed comparing agricultural cropping systems with natural vegetation along a sampling transect spanning different agro-ecologies on the eastern foot slopes of Mount Kenya in Embu county, 125 km from Nairobi, Kenya. The aim was to determine differences in soil carbon stocks and carbon recalcitrance and relate these to soil textural class, altitude, climatic parameters and land use. Soils from main agricultural systems as tea, coffee and maize-based intercropping, as well as from natural vegetation cover were sampled in triplicates, in five layers from 0 to 30 cm in depth and processed for total carbon analysis. The whole soil samples were also analysed using Laser-Induced Fluorescence Spectroscopy (LIFS) to assess carbon humification. Prototype portable equipment intended for future in situ analysis was used in the lab to ascertain the structure of the most recalcitrant and stable carbon present in different agro-ecosystems. In addition, Near Infrared Spectroscopy (NIRS) was tested for the quantitative analysis of soil carbon, showing that it is a reproducible and low-cost method that provided satisfactory results under the processing conditions of the samples. Results showed wide variation in the level and quality of carbon stored in the soils, depending on soil texture, land use, elevation, climate, agricultural practices and land use history. Considering the heterogeneous nature of sampled soils and the performance of NIRS and LIFS, these results can be used as a basis for the development of fully portable systems able to provide rapid, clean and potentially cost-effective relevant information for soil management

Caracterização da matéria orgânica do solo em fragmentos de mata atlântica e em plantios abandonados de eucalipto Quality of soil organic matter in fragments of atlantic forest and abandoned eucalyptus plantations

A compreensão da dinâmica da matéria orgânica (MO) nos ecossistemas de Mata Atlântica é necessária para o manejo eficiente e conservação de vegetações nativas. A natureza química das substâncias húmicas (SHs) reflete os processos de gênese e uso do solo e pode ser usada como indicador da qualidade da MO. O objetivo deste estudo foi usar a qualidade da MO como sinalizador do ambiente edáfico em áreas de mata nativa, sobre Gleissolo Háplico Tb distrófico, argissólico e Cambissolo Háplico Tb distrófico, e em plantios abandonados de eucalipto de diferentes idades, sobre Argissolo Vermelho-Amarelo distrófico latossólico, localizados na Reserva Biológica União, RJ. Para isso, foram avaliadas as distribuições da MO humificada e os ácidos húmicos do solo por meio de métodos químicos e espectroscópicos, em duas profundidades do solo (0-0,10 e 0,10-0,20 m). Os solos da Reserva Biológica apresentaram fertilidade natural muito baixa, condição esta limitante para o processo de humificação. As SHs representaram, portanto, menos de 50 % do carbono prontamente oxidável, indicando que as substâncias não-húmicas compõem a maior parte da MO; portanto, a serrapilheira tem o papel central na nutrição das plantas e microrganismos. A distribuição relativa das frações que compõem a MO humificada não foi alterada pela cobertura vegetal nem pela classe de solo. Os ácidos húmicos apresentaram natureza química semelhante à normalmente encontrada para os ácidos fúlvicos, e tais características foram expressas no baixo conteúdo de C e nos elevados valores das razões H/C e O/C e da acidez, o que levou à formação de material humificado pouco condensado.A espectroscopia de infravermelho indicou o efeito do tipo de solo e da cobertura vegetal sobre a qualidade química dos ácidos húmicos. O material humificado isolado da Mata Atlântica apresentou maior intensidade de fluorescência, sugerindo maior labilidade e capacidade de ceder elétrons para reações químicas do solo.<br>The organic matter dynamics in Atlantic forest ecosystems must be understood to ensure the efficiency of conservation programs. Chemical characteristics of humic substances are important because they reflect the soil genesis processes and soil management, and can be used as indicator of the organic matter quality. The purpose of this study was to test the organic matter quality as a marker of the soil environment in areas of native Atlantic forest developed on a distrophyc Gleysol and a distrophyc Cambisol and in abandoned plantations of eucalyptus of different ages, at the União Biological Reserve, RJ, Brazil. The distribution of the humified fractions of the soil organic matter and humic acids were evaluated by chemical and spectroscopic methods, in two soil layers (0-0.10 and 0.10-0.20 m). Soil fertility of the Biological Reserve was very low, representing a limiting factor for the humification process. Humic substances represented less than 50 % of the oxidized carbon, indicating that most of the organic matter consists of non-humic substances. Consequently, forest litterfall plays a central role in the plant/microorganism nutrition. The relative distribution of the humic fraction was not altered by the plant cover or soil class. The chemical nature of the humic acids was similar to fulvic acids. These characteristics were expressed by a low carbon content, high H/C and O/C ratios and high acidity values which resulted in humified material with low chemical evolution. Infrared spectroscopy indicated the effect of the soil class and plant cover on the chemical quality of the humic acids. The fluorescence intensity of humified material isolated from the Atlantic forest area was high, suggesting higher lability and capacity to release electrons for chemical reactions in the soil