Your search keyword '"Gulshan Kumar"' showing total 8 results

1. Digital Mapping of Soil Organic Carbon Using Machine Learning Algorithms in the Upper Brahmaputra Valley of Northeastern India

Author

Amit Kumar, Pravash Chandra Moharana, Roomesh Kumar Jena, Sandeep Kumar Malyan, Gulshan Kumar Sharma, Ram Kishor Fagodiya, Aftab Ahmad Shabnam, Dharmendra Kumar Jigyasu, Kasthala Mary Vijaya Kumari, and Subramanian Gandhi Doss

Subjects

environmental covariates, predictive mapping, random forest, sericulture soil, digital SOC map, Agriculture

Abstract

Soil Organic Carbon (SOC) is a crucial indicator of ecosystem health and soil quality. Machine learning (ML) models that predict soil quality based on environmental parameters are becoming more prevalent. However, studies have yet to examine how well each ML technique performs when predicting and mapping SOC, particularly at high spatial resolutions. Model predictors include topographic variables generated from SRTM DEM; vegetation and soil indices derived from Landsat satellite images predict SOC for the Lakhimpur district of the upper Brahmaputra Valley of Assam, India. Four ML models, Random Forest (RF), Cubist, Extreme Gradient Boosting (XGBoost), and Support Vector Machine (SVM), were utilized to predict SOC for the top layer of soil (0–15 cm) at a 30 m resolution. The results showed that the descriptive statistics of the calibration and validation sets were close enough to the total set data and calibration dataset, representing the complete samples. The measured SOC content varied from 0.10 to 1.85%. The RF model’s performance was optimal in the calibration and validation sets (R2c = 0.966, RMSEc = 0.159%, R2v = 0.418, RMSEv = 0.377%). The SVM model, on the other hand, had the next-lowest accuracy, explaining 47% of the variation (R2c = 0.471, RMSEc = 0.293, R2v = 0.081, RMSEv = 0.452), while the Cubist model fared the poorest in both the calibration and validation sets. The most-critical variable in the RF model for predicting SOC was elevation, followed by MAT and MRVBF. The essential variables for the Cubist model were slope, TRI, MAT, and Band4. AP and LS were the most-essential factors in the XGBoost and SVM models. The predicted OC ranged from 0.44 to 1.35%, 0.031 to 1.61%, 0.035 to 1.71%, and 0.47 to 1.36% in the RF, Cubist, XGBoost, and SVM models, respectively. Compared with different ML models, RF was optimal (high accuracy and low uncertainty) for predicting SOC in the investigated region. According to the present modeling results, SOC may be determined simply and accurately. In general, the high-resolution maps might be helpful for decision-makers, stakeholders, and applicants in sericultural management practices towards precision sericulture.

Published

2023

2. Spatial Prediction of Soil Particle-Size Fractions Using Digital Soil Mapping in the North Eastern Region of India

Author

Roomesh Kumar Jena, Pravash Chandra Moharana, Subramanian Dharumarajan, Gulshan Kumar Sharma, Prasenjit Ray, Partha Deb Roy, Dibakar Ghosh, Bachaspati Das, Amnah Mohammed Alsuhaibani, Ahmed Gaber, and Akbar Hossain

Subjects

digital soil mapping, environmental variables, random forest, uncertainty analysis, particle-size fractions, Agriculture

Abstract

Numerous applications in agriculture, climate, ecology, hydrology, and the environment are severely constrained by the lack of detailed information on soil texture. The purpose of this study was to predict soil particle-size fractions (PSF) in the Ri-Bhoi district of Meghalaya state, India, using a random forest model (RF). For the modeling of soil particle-size fractions, we employed 95 soil profiles (456 depth-wise layers) gathered from a recent national land resource inventory as well as currently accessible environmental variables. Sand, silt, and clay content were predicted using the Random Forest model at varied depths of 0–5, 5–15, 30–60, 60–100, and 100–200 cm. Our results showed the R2 for sand was found to be 0.30 (0–5 cm), 0.28 (5–15 cm), and 0.21 (15–30 cm). For the sand, silt, and clay fractions, respectively, the concordance correlation coefficient (CCC) was found to be greater in the 0–30 cm, 0–60 cm, and 0–15 cm depths. When there is a reasonably close monitoring of the coverage probability with a confidence level along the 1:1 line, prediction interval coverage probability (PICP) gives a decent indicator of what to anticipate. The most crucial variables for the prediction of sand and silt were channel network base level (CNBL) and LS-Factor, whereas Min Temperature of Coldest Month (°C) (BIO6) was discovered for clay prediction. For all three soil texture fractions, the range between the 5% lower and 95% higher prediction bounds was large, indicating that the existing spatial predictions may be improved. The maps of soil texture were significantly more precise, and they accurately depicted the spatial variations of particle-size fractions. Additionally, there is still a need to investigate novel methodologies for extensive digital soil mapping, which will be very advantageous for many international initiatives.

Published

2023

3. Spatial Distribution of the Fertility Parameters in Sericulture Soil: A Case Study of Dimapur District, Nagaland

Author

Dharmendra Kumar Jigyasu, Amit Kumar, Aftab Ahmad Shabnam, Gulshan Kumar Sharma, Roomesh Kumar Jena, Bachaspati Das, Vinodakumar Somashing Naik, Siddique Ali Ahmed, and Kasthala Mary Vijaya Kumari

Subjects

acidic soil, chemical soil parameters, fertility map, GIS, multi-macronutrient map, sulphur availability index, Agriculture

Abstract

Dimapur (Nagaland, India) is dominated by undifferentiated hillside slopes and alluvial plains. The Muga and Eri silk industries are important cultural and economic activities for the inhabitants of Dimapur. Profitable silk production requires adequate quality and quantity of healthy leaves and is highly dependent on the soil fertility of the region. Keeping this in view, the present study was carried out as a first attempt to prepare a geographic information system (GIS) map for Muga and Eri soils in Dimapur, Nagaland. A total 65 surface (0–15 cm) soil samples from Muga farms and 79 surface soil samples from Eri farms were collected and analysed for soil pH, organic carbon content and availability of macro- and micronutrients. Soils of both Muga and Eri farms were found to be extremely (−1) and medium available phosphorus content (2.68–154.6 kg ha−1). The sulphur availability index was 0.26 and 11.81 for Muga and Eri host plant farms, respectively. The multi-macronutrient map revealed that 46.95% of the district’s total geographical area (TGA) showed deficiencies in one or more macronutrients (high priority zone). Thus, these regions need urgent attention in terms of nutrient management decisions in order to reduce the declining trend of soil fertility and achieve sustainable sericulture production.

Published

2023

4. Impacts of Land Use on Pools and Indices of Soil Organic Carbon and Nitrogen in the Ghaggar Flood Plains of Arid India

Author

Pravash Chandra Moharana, Roshan Lal Meena, Mahaveer Nogiya, Roomesh Kumar Jena, Gulshan Kumar Sharma, Sonalika Sahoo, Prakash Kumar Jha, Kumari Aditi, and P. V. Vara Prasad

Subjects

carbon and nitrogen pools, soil quality, carbon and nitrogen management index, land use, arid environment, Agriculture

Abstract

Changes in land use have several impacts on soil organic carbon (C) and nitrogen (N) cycling, both of which are important for soil stability and fertility. Initially, the study area was barren uncultivated desert land. During the late 1960s, the introduction of a canal in the arid region converted the barren deserts into cultivated land. The objectives of the present study were to evaluate the effects of various land use systems on temporal changes in soil organic C and N pools, and to evaluate the usefulness of different C and N management indices for suitable and sustainable land use systems under arid conditions. We quantified soil organic C and N pools in five different land uses of the Ghaggar flood plains, in hot, arid Rajasthan, India. The study focused on five land use systems: uncultivated, agroforestry, citrus orchard, rice–wheat, and forage crop. These land use systems are ≥20 years old. Our results showed that total organic carbon (TOC) was highest (7.20 g kg−1) in the forage crop and lowest in uncultivated land (3.10 g kg−1), and it decreased with depth. Across different land uses, the very labile carbon (VLC) fraction varied from 36.11 to 42.74% of TOC. In comparison to the uncultivated system, forage cropping, rice–wheat, citrus orchard, and agroforestry systems increased active carbon by 103%, 68.3%, 42.5%, and 30.6%, respectively. Changes in management and land use are more likely to affect the VLC. In soil under the forage crop, there was a considerable improvement in total N, labile N, and mineral N. Lability index of C (LIC), carbon management index (CMI), and TOC/clay indices were more sensitive to distinguishing land uses. The highest value of CMI was observed in the forage crop system followed by rice–wheat and agroforestry. In the long term, adoption of the forage crop increased soil quality in the hot, arid desert environment by enhancing CMI and VLC, which are the useful parameters for assessing the capacity of land use systems to promote soil quality.

Published

2022

5. Digital Mapping of Soil Organic Carbon Using Machine Learning Algorithms in the Upper Brahmaputra Valley of Northeastern India

Author

Kumar, Amit, primary, Moharana, Pravash Chandra, additional, Jena, Roomesh Kumar, additional, Malyan, Sandeep Kumar, additional, Sharma, Gulshan Kumar, additional, Fagodiya, Ram Kishor, additional, Shabnam, Aftab Ahmad, additional, Jigyasu, Dharmendra Kumar, additional, Kumari, Kasthala Mary Vijaya, additional, and Doss, Subramanian Gandhi, additional

Published

2023

6. Spatial Prediction of Soil Particle-Size Fractions Using Digital Soil Mapping in the North Eastern Region of India

Author

Jena, Roomesh Kumar, primary, Moharana, Pravash Chandra, additional, Dharumarajan, Subramanian, additional, Sharma, Gulshan Kumar, additional, Ray, Prasenjit, additional, Deb Roy, Partha, additional, Ghosh, Dibakar, additional, Das, Bachaspati, additional, Alsuhaibani, Amnah Mohammed, additional, Gaber, Ahmed, additional, and Hossain, Akbar, additional

Published

2023

7. Spatial Distribution of the Fertility Parameters in Sericulture Soil: A Case Study of Dimapur District, Nagaland

Author

Jigyasu, Dharmendra Kumar, primary, Kumar, Amit, additional, Shabnam, Aftab Ahmad, additional, Sharma, Gulshan Kumar, additional, Jena, Roomesh Kumar, additional, Das, Bachaspati, additional, Naik, Vinodakumar Somashing, additional, Ahmed, Siddique Ali, additional, and Kumari, Kasthala Mary Vijaya, additional

Published

2023

8. Impacts of Land Use on Pools and Indices of Soil Organic Carbon and Nitrogen in the Ghaggar Flood Plains of Arid India

Author

Moharana, Pravash Chandra, primary, Meena, Roshan Lal, additional, Nogiya, Mahaveer, additional, Jena, Roomesh Kumar, additional, Sharma, Gulshan Kumar, additional, Sahoo, Sonalika, additional, Jha, Prakash Kumar, additional, Aditi, Kumari, additional, and Vara Prasad, P. V., additional

Published

2022