Sensitivity of Labile Carbon Pools and Soil Organic Carbon Stocks to Organic and Mineral Fertilization Across Foothill Himalayas

While soil organic carbon (SOC) is instrumental in soil fertility and soil productivity, thus offers an extremely imperative part in sandy soils of foothill Himalayas, scarce documentation has been surfaced regarding the short-term SOC changes and carbon stocks. The current study was conducted over...

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Published in:Communications in Soil Science and Plant Analysis 2024-03, Vol.55 (5), p.692-706
Main Authors: Shah, Tajamul Islam, Bangroo, Shabir Ahmed, Shah, Aanisa Manzoor, Sharma, M. P., Aezum, Aziz Mujtaba, Bhat, Mohammad Iqbal, Bhat, M. Iqbal Jeelani, Bashir, Owais, Wani, Fehim Jeelani, Rai, A. P.
Format: Article
Language:English
Subjects:
Animal manures
Biological fertilization
black gram
Bulk density
Carbon
Carbon pools
Crop production
Farmyard manure
Fertility
Fertilization
Foothill Himalayas
Foothills
hills
Himalayan region
Integrated nutrient management
labile carbon
Loam soils
microbial carbon
Microorganisms
Mineral fertilizers
Monoculture
nutrient management
Organic carbon
Organic soils
Particulate organic carbon
plant analysis
Sandy loam
sandy loam soils
Sandy soils
Sensitivity
SOC stocks
Soil
Soil fertility
Soil organic carbon
soil productivity
Soil properties
Soil quality
Stocks
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Summary:While soil organic carbon (SOC) is instrumental in soil fertility and soil productivity, thus offers an extremely imperative part in sandy soils of foothill Himalayas, scarce documentation has been surfaced regarding the short-term SOC changes and carbon stocks. The current study was conducted over two consecutive years (2016 and 2017) to assess the soil organic carbon changes under varied fertilization practices in black gram monoculture. A total of 13 treatments were replicated thrice in randomized block design in sandy loam soil. The results revealed that application of farmyard manure @ 2 t ha −1 (FYM) and inorganic fertilization under T 13 recorded the highest labile carbon (LC), particulate organic carbon (POC), microbial biomass carbon (MBC), and soil organic carbon. Further, it has recorded lowest bulk density, while the treatment T 2 marked the highest value for bulk density. A significant and positive relationship was observed among different carbon fractions. The sensitivity index (SI) of MBC, POC, KOC and SOC varied from 3.14 to 15.37%, 2.42 to 5.06%, 1.87 to 17.40% and −0.40 to 4.45%, respectively and differences were greatest in FYM treatments. The results inferred that application of FYM holds a prime prominence and should be preferred in the nutrient management to boost soil fertility and properties of soils, for maintenance of soil quality and crop production.
ISSN:0010-3624
1532-2416
1532-2416
1532-4133
DOI:10.1080/00103624.2023.2276258