Mapping Soil Organic Carbon (SOC) in a Semi-arid Mountainous Watershed Using Variables from Hyperspectral, Lidar and Traditional Datasets
Mapping Soil Organic Carbon (SOC) in a Semi-arid Mountainous Watershed Using Variables from Hyperspectral, Lidar and Traditional Datasets

Author: Ryan Matthew Will

Publisher:

Published: 2017

Total Pages: 119

ISBN-13:

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"Quantifying soil organic carbon (SOC) in complex terrain is challenging due to its high spatial variability. Generally, limited discrete observations of SOC data are used to develop spatially distributed maps of SOC by developing quantitative relationships between SOC and available spatially distributed variables. In many ecosystems, remotely sensed information on aboveground vegetation can be used to predict belowground carbon stocks. In this research, we developed maps of SOC across a semi-arid watershed based on discrete field observations and modeling using a suite of variables inclusive of hyperspectral and lidar datasets; these observations provide insights into the controls on soil carbon in this environment. The Reynolds Creek Experimental Watershed (RCEW), in SW Idaho, has a strong elevation gradient that controls precipitation and vegetation. Soil samples were collected to 30 cm depth using a nested sampling approach, across the watershed (samples, 279 data points, in 28 plots, discretized with depth, total n=1344) and analyzed for SOC content. Point SOC data was combined with a suite of predictor variables from traditional, lidar and hyperspectral datasets to calibrate Random Forest and Stepwise Multiple Linear Regression models that predict SOC distribution across RCEW. In this study, SOC generally increased along the precipitation-elevation gradient corresponding with an increase in the diversity and abundance of vegetation. We found that variable soil bulk densities and areas of high rock content strongly influenced mass/unit area SOC values. Interestingly, rock content was also negatively correlated with percent SOC. Local variability of SOC in this study was high with the variability at the plot scale about 1/3 of that observed at the watershed scale. Our research suggests that vegetation indices calculated from spectral data are the best predictors of SOC storage in this system. Roughly 60% of the variance in SOC data is explained using Normalized Difference Vegetation Index while two hyperspectral vegetation indices, Modified Red Edge Simple Ratio and Modified Red Edge Normalized Difference Vegetation Index explain over 70%. The addition of Lidar variables modestly improved SOC prediction, explaining 75% of variability in SOC."--Boise State University ScholarWorks.

Soil Organic Carbon Mapping Cookbook
Soil Organic Carbon Mapping Cookbook

Author: Food and Agriculture Organization of the United Nations

Publisher: Food & Agriculture Org.

Published: 2018-05-21

Total Pages: 222

ISBN-13: 9251304408

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The Soil Organic Carbon Mapping cookbook provides a step-by-step guidance for developing 1 km grids for soil carbon stocks. It includes the preparation of local soil data, the compilation and pre-processing of ancillary spatial data sets, upscaling methodologies, and uncertainty assessments. Guidance is mainly specific to soil carbon data, but also contains many generic sections on soil grid development, as it is relevant for other soil properties. This second edition of the cookbook provides generic methodologies and technical steps to produce SOC maps and has been updated with knowledge and practical experiences gained during the implementation process of GSOCmap V1.0 throughout 2017. Guidance is mainly specific to SOC data, but as this cookbook contains generic sections on soil grid development it can be applicable to map various soil properties.

Monitoring Spatial Variations in Soil Organic Carbon Using Remote Sensing and Geographic Information Systems
Monitoring Spatial Variations in Soil Organic Carbon Using Remote Sensing and Geographic Information Systems

Author: Salahuddin M. Jaber

Publisher:

Published: 2006

Total Pages: 506

ISBN-13:

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Soil organic carbon (SOC) sequestration is a component of larger strategies to control the accumulation of greenhouse gases that may be causing global warming. To implement this approach, it is necessary to improve the methods of measuring SOC content. Among these methods are indirect remote sensing and geographic information systems (GIS) techniques that are required to provide non-intrusive, low cost, and spatially continuous information that cover large areas on a repetitive basis. The main goal of this study is to evaluate the effects of using Hyperion hyperspectral data on improving the existing remote sensing and GIS-based methodologies for rapidly, efficiently, and accurately measuring SOC content on farmland. The study area is Big Creek Watershed (BCW) in Southern Illinois. The methodology consists of compiling a GIS database (consisting of remote sensing and soil variables) for 303 composite soil samples collected from representative pixels along the Hyperion coverage area of the watershed. Stepwise procedures were used to calibrate and validate linear multiple regression models where SOC was regarded as the response and the other remote sensing and soil variables as the predictors. Two models were selected. The first was the best all variables model and the second was the best only raster variables model. Map algebra was implemented to extrapolate the best only raster variables model and produce a SOC map for the BGW. This study concluded that Hyperion data marginally improved the predictability of the existing SOC statistical models based on multispectral satellite remote sensing sensors with correlation coefficient of 0.37 and root mean square error of 3.19 metric tons/hectare to a 15-cm depth. The total SOC pool of the study area is about 225,232 metric tons to 15-cm depth. The nonforested wetlands contained the highest SOC density (34.3 metric tons/hectare/15cm) with total SOC content of about 2,003.5 metric tons to 15-cm depth, where croplands had the lowest SOC density (21.6 metric tons/hectare/15cm) with total SOC content of about 44,571.2 metric tons to 15-cm depth.

Global soil organic carbon sequestration potential map (GSOCseq v1.1) – Technical manual
Global soil organic carbon sequestration potential map (GSOCseq v1.1) – Technical manual

Author: Peralta, G., Di Paolo L., Luotto, I., Omuto, C., Mainka M., Viatkin, K., Yigini, Y.

Publisher: Food & Agriculture Org.

Published: 2022-01-18

Total Pages: 255

ISBN-13: 9251337969

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Responding to a request for support in addressing the Sustainable Development Goal Indicators, especially Indicator 15.3 which includes the restoration of degraded soils, the Global Soil Partnership (GSP) Plenary Assembly in 2020 instructed the Intergovernmental Technical Panel on Soils (ITPS) and the GSP Secretariat to develop the Global Soil Organic Carbon Sequestration Potential map (GSOCseq map), following the same country-driven approach developed for the Global Soil Organic Carbon map (GSOCmap). This ‘bottom-up’ approach is expected to generate a GSOCseq map from national SOCseq maps, developed and validated by local experts, based on the implementation of SOC models using standardized procedures and by leveraging the best available local data.

Global Soil Organic Carbon Map – GSOCmap v.1.6
Global Soil Organic Carbon Map – GSOCmap v.1.6

Author: Food and Agriculture Organization of the United Nations

Publisher: Food & Agriculture Org.

Published: 2022-03-25

Total Pages: 263

ISBN-13: 9251358990

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This document presents the technical details of the first-ever country-driven Global Soil Organic Carbon Map (GSOCmap). This map allows the estimation of Soil Organic Carbon (SOC) stocks from 0 to 30 cm. It represents a key contribution to the Sustainable Development Goal (SDG) indicator 15.3.1, which defines the area of degraded land. The novelty of this map is the fact that it is the first Global SOC stocks assessment which is produced through a participatory approach. Supported by the GSP-Secretariat, countries developed their capacities and stepped up efforts to compile or collect all available soil information at the national level. This technical report is a companion report to the GSOCmap V1.6.0. It presents methodologies and process of compiling the Global Soil organic Carbon Map (GSOCmap).

Global Soil Organic Carbon Map (GSOCmap) Version 1.5
Global Soil Organic Carbon Map (GSOCmap) Version 1.5

Author: Food and Agriculture Organization of the United Nations

Publisher: Food & Agriculture Org.

Published: 2020-07-01

Total Pages: 169

ISBN-13: 9251321442

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GSOCmap is the first global soil organic carbon map ever produced through a consultative and participatory process involving member countries, which makes this map totally new and unique. In fact, the map was prepared by member countries, under the guidance of the Intergovernmental Technical Panel on Soils and the Global Soil Partnership Secretariat. Countries agreed on the methodology to produce the map and were trained on modern tools and methodologies to develop national maps. The Global Soil Partnership then gathered all national maps to produce the final product, ensuring a thorough harmonization process. This technical report is a companion report to the GSOCmap V1.5. It presents methodologies and process of compiling the Global Soil Organic Carbon Map.

Global Soil Organic Carbon Sequestration Potential Map – GSOCseq v.1.1
Global Soil Organic Carbon Sequestration Potential Map – GSOCseq v.1.1

Author: Food and Agriculture Organization of the United Nations

Publisher: Food & Agriculture Org.

Published: 2022-03-21

Total Pages: 179

ISBN-13: 9251358974

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This document presents the technical details of the first ever country-driven Global Soil Organic Carbon Sequestration Potential Map (GSOCseq). This map allows for the estimation of top (0–30 cm) soil organic carbon sequestration potential in agricultural areas under a business as usual and three sustainable soil management scenarios. The Global Soil Organic Carbon Sequestration Potential Map (GSOCseq) stands out as a game-changing program aimed at bridging this divide by raising technical expertise on SOC sequestration potential modeling and mapping while relying on a uniquely participatory and iterative process. The GSOCseq v1.1 was developed based on the submissions of national experts appointed by the Food and Agriculture Organization of the United Nations (FAO) Member Nations. Each of the appointed National Experts generated national maps following a bottom-up approach that was facilitated and coordinated by the Secretariat of FAO’s Global Soil Partnership (GSP).

Recarbonizing global soils – A technical manual of recommended management practices
Recarbonizing global soils – A technical manual of recommended management practices

Author: Food and Agriculture Organization of the United Nations

Publisher: Food & Agriculture Org.

Published: 2021-09-07

Total Pages: 270

ISBN-13: 9251348375

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During the last decades, soil organic carbon (SOC) attracted the attention of a much wider array of specialists beyond agriculture and soil science, as it was proven to be one of the most crucial components of the earth’s climate system, which has a great potential to be managed by humans. Soils as a carbon pool are one of the key factors in several Sustainable Development Goals, in particular Goal 15, “Protect, restore and promote sustainable use of terrestrial ecosystems, sustainably manage forests, combat desertification and halt and reverse land degradation and halt biodiversity loss” with the SOC stock being explicitly cited in Indicator 15.3.1. This technical manual is the first attempt to gather, in a standardized format, the existing data on the impacts of the main soil management practices on SOC content in a wide array of environments, including the advantages, drawbacks, and constraints. This manual presents different sustainable soil management (SSM) practices at different scales and in different contexts, supported by case studies that have been shown with quantitative data to have a positive effect on SOC stocks and successful experiences of SOC sequestration in practical field applications. Volume 2 includes a description of hot spots of SOC stocks. This manual defines hot spots of SOC as areas that represent a proportionally little of the global land surface but on which SOC storage is highly effective; bright spots as large land areas with low SOC stocks per km2 that represent a potential for further carbon sequestration.

Digital Soil Mapping
Digital Soil Mapping

Author: Janis L. Boettinger

Publisher: Springer Science & Business Media

Published: 2010-06-28

Total Pages: 435

ISBN-13: 9048188636

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Digital Soil Mapping is the creation and the population of a geographically referenced soil database. It is generated at a given resolution by using field and laboratory observation methods coupled with environmental data through quantitative relationships. Digital soil mapping is advancing on different fronts at different rates all across the world. This book presents the state-of-the art and explores strategies for bridging research, production, and environmental application of digital soil mapping.It includes examples from North America, South America, Europe, Asia, and Australia. The chapters address the following topics: - evaluating and using legacy soil data - exploring new environmental covariates and sampling schemes - using integrated sensors to infer soil properties or status - innovative inference systems predicting soil classes, properties, and estimating their uncertainties - using digital soil mapping and techniques for soil assessment and environmental application - protocol and capacity building for making digital soil mapping operational around the globe.