Effect of chemical soil properties on the growth of cajuput (Melaleuca leucadendron (L.) Linnaeus) stand

Soil chemical properties play important roles to support plant growth. It determines the nutrient availability which is required by the plant. This study aimed to identify the influence of soil chemical properties on cajuput stand growth. It was conducted in Forest Resort Gubugrubuh, Gunungkidul District. Data collection was undertaken in 3 sites that became the priority sites of cajuput establishment, namely site 75, site 78, and site 80. It was divided into soil sample collection and cajuput stand measurement. The soil sample was collected from surface layer at depth of 0-15 cm. Afterward, it was tested in the laboratory for soil pH, soil organic carbon, total nitrogen, available phosphorus, total potassium, and cation exchange capacity (CEC). The measurement of cajuput stand was carried out by N-trees sampling. The variable of the stand was described by diameter and basal area. Comparison of soil chemical properties and cajuput stand growth from each site were analyzed using One Way ANOVA (α=0.05) followed by HSD Tukey (α=0.05). Furthermore, we used Stepwise Regression (α=0.05) to identify the influence of soil chemical properties on cajuput stand growth. The results showed that total nitrogen was the only soil chemical parameter that was significantly different between sites (p<0.05). However, the growth of cajuput stands was not significantly different between sites (p<0.05). This study found that available phosphorus and cation exchange capacity had clearly influenced on diameter and basal area.

Download Full-text

Liming Effects of Sawdust Ash and Lime on Sunflower (Helianthus annuus L.) Yield in Acidic Soil of Southeastern Nigeria

International Journal of Plant & Soil Science ◽

10.9734/ijpss/2019/v28i530121 ◽

2019 ◽

pp. 1-11

Author(s):

C. V. Ogbenna ◽

V. E. Osodeke

Keyword(s):

Soil Ph ◽

Chemical Properties ◽

Exchange Capacity ◽

Acidic Soil ◽

Soil Chemical Properties ◽

Growth And Yield ◽

Available Phosphorus ◽

Yield Data ◽

Southeastern Nigeria ◽

Head Weight

Aim: A pot experiment was carried out to determine the effect of sawdust ash and lime (Ca(OH)2) on soil characteristics and yield of sunflower in acidic soil of southeastern Nigeria. Study Design: The experiment was laid out in split-plot design, using sawdust ash (0, 1, 2, 3, 4 t ha-1) as the sub plot and lime (0, 0.5, 1.0, 1.5 t ha-1) as the main plot. Place and Duration of Study: Study was conducted outdoors at Michael Okpara University of Agriculture Umudike, Nigeria, during the 2010 planting season. Materials and Methods: Treatment combinations were applied to the 60 buckets containing soil, mixed thoroughly and watered adequately. After 1 week of treatment application, two sunflower seeds were planted and later thinned to one seedling per bucket. Plant growth and yield data were collected. Pre planting and post-harvest soil samples were collected and analyzed for soil properties. Results: Results showed that with the exception of organic carbon there was significant effect of treatments on all soil chemical properties. Lime and sawdust ash (SDA) as single and combined treatments significantly increased total nitrogen (P=0.05), available phosphorus (P<0.010), and base saturation (P<0.012). The interaction between SDA and lime significantly (P=0.05) increased total exchangeable bases and effective cation exchange capacity, while soil pH was significantly increased (P=0.05) by single applications. The increases in soil chemical properties led to significant positive response of the sunflower. With the exception of number of leaves, other plant parameters (Plant height, stem diameter, head weight, 50 seed weight, head diameter) had significant increases for sawdust ash alone at P=0.05. Correlation studies showed positive significant relationship between soil pH and sunflower yield. Conclusion: The study showed that sunflower performed best at the combination of 3 tha-1 SDA and 1.5 t ha-1 lime producing a mean head weight of 45.4 g.

Download Full-text

Eosin Removal by Cetyl Trimethylammonium-Cloisites: Influence of the Surfactant Solution Type and Regeneration Properties

Molecules ◽

10.3390/molecules24163015 ◽

2019 ◽

Vol 24 (16) ◽

pp. 3015

Author(s):

Fethi Kooli ◽

Souad Rakass ◽

Yan Liu ◽

Mostafa Abboudi ◽

Hicham Oudghiri Hassani ◽

...

Keyword(s):

Cation Exchange ◽

Clay Mineral ◽

Salt Solution ◽

Cation Exchange Capacity ◽

Chemical Properties ◽

Surfactant Solution ◽

Exchange Capacity ◽

Maximum Temperature ◽

Basal Spacing ◽

Xrd Techniques

The effect of the counteranion of hexadecyltrimethylammonium salts on the physico-chemical properties of organoclays was investigated, using a selected natural clay mineral with a cation exchange capacity of 95 meq/100 g. The uptake amount of C16 cations was dependent on the hexadecyltrimethylammonium (C16) salt solution used, the organoclay prepared from C16Br salt solution exhibited a value of 1. 05 mmole/g higher than those prepared from C16Cl and C16OH salt solutions. The basal spacing of these organoclays was in the range of 1.81 nm to 2.10 nm, indicating a similar orientation of the intercalated surfactants, and could indicated that the excess amount of surfactants, above the cation exchange capacity of 0.95 meq/g could be adsorbed on the external surface of the clay mineral sheets. These organoclays were found to be stable in neutral, acidic, and basic media. The thermal stability of these organoclays was carried out using thermogravimetric analysis and in-situ X-ray diffraction (XRD) techniques. The decomposition of the surfactant occurred at a maximum temperature of 240 °C, accompanied with a decrease of the basal spacing value close to 1.42 nm. The application of these organoclays was investigated to remove an acidic dye, eosin. The removal amount was related to the initial used concentrations, the amount of the surfactants contents, and to the preheated temperatures of the organoclays. The removal was found to be endothermic process with a maximum amount of 55 mg of eosin/g of organoclay. The value decreased to 25 mg/g, when the intercalated surfactants were decomposed. The reuse of these organoclays was limited to four regeneration recycles with a reduction of 20 to 30%. However, noticeable reduction between 35% to 50% of the initial efficiency, was achieved after the fifth cycle, depending of the used organoclays.

Download Full-text

THE EFFECTIVENESS OF COMPOST, HUMIC ACID AND PURE FULVATE ON IMPROVEMENT OF ULTISOL SOIL CHEMICAL PROPERTIES

EPRA International Journal of Multidisciplinary Research (IJMR) ◽

10.36713/epra6996 ◽

2021 ◽

pp. 247-254

Author(s):

Resman ◽

Sahta Ginting ◽

Muhammad Tufaila ◽

Fransiscus Suramas Rembon ◽

Halim

Keyword(s):

Humic Acid ◽

Cation Exchange ◽

Cation Exchange Capacity ◽

Chemical Properties ◽

Fulvic Acids ◽

Exchange Capacity ◽

Humic And Fulvic Acids ◽

Total N ◽

Organic C ◽

Exchangeable Al

The research aimed to determine the effectiveness of compost containing humic and fulvic acids, and pure humic and fulvic acids in increasing of Ultisol soil chemical properties. The research design used a randomized block design (RBD), consisting of 10 treatments, namely K0: 0 g polybag-1, KO1: 500 g polybag-1, KO2: 500 g polybag-1, KO3: 500 g polybag-1, KO4: 500 g polybag-1, KO5: 500 g polybag-1, KO6: 500 g polybag-1, KO7: 500 g of polybags-1, H: 50 g of polybag-1, A: 500 g polybag-1. Each treatment was repeated three times and obtained 30 treatment units. The results showed that pH H2O (K0: 4.49, KO1: 5.64, KO2: 5.47, KO3: 5.43, KO4: 5.51, KO5: 5.39, KO6: 5.48, KO7: 6.17, H: 5.06, F: 5.15), total-N (%) (K0: 0.13, KO1: 0.17, KO2: 0.18, KO3: 0.30, KO4: 0.25, KO5: 0.24, KO6: 0.29, KO7: 0.36, H: 0.16, F: 0.14), organic-C (%) (K0: 1.85, KO1; 2.30, KO2: 2.24, KO3: 2.33, KO4: 2.62, KO5: 2.25, KO6: 2.27, KO7: 2.95, H: 2.32, F: 2.26) , available-P (%) (K0: 2.75, KO1: 3.24, KO2: 3.16, KO3: 3.27, KO4: 3.57, KO5: 3.31, KO6: 3.37, KO7: 3.89, H: 3.10, F: 3.12), exchangeable-Al (me100g-1) (K0: 2.51, KO1: 2.11, KO2: 2.13, KO3: 2.15, KO4: 1.88, KO5: 2.14, KO6: 2.12, KO7: 1.75, H: 2.16, F: 2.17), base saturation (%) (K0: 30.91, KO1: 63.48, KO2: 52.63, KO3: 53.76, KO4: 56.13, KO5: 54.96, KO6: 56.71, KO7: 65.53, H: 39.11, F: 42.76), cation exchange capacity (me100g-1) (K0: 12.76, KO1: 15.64, KO2: 14.86, KO3: 14.35, KO4: 14.13, KO5: 15.01, KO6: 15.50, KO7: 17.94, H: 14.19, F: 13.73). The combined compost treatment of three types of organic matter (Imperata cylindrica + Rice straw + Glincidia sepium) is more effective in increasing the pH, H2O as 37.42%, total-N as 176.92%, Organic-C as 59.46%, available-P as 41.45%, base saturation as 65.53%, cation exchange capacity as 17.94% and exchangeable -Al, Alreduction as 30.28% of ultisol soil. KEY WORDS: compost, humic acid, fulvate, soil chemical, ultisol

Download Full-text

Effect of different amounts of biochar on meadow soil characteristics and maize yields over three years

BioResources ◽

10.15376/biores.14.2.4194-4209 ◽

2019 ◽

Vol 14 (2) ◽

pp. 4194-4209

Author(s):

Zhihui Wang ◽

Chunshuang Tang ◽

Hongyi Wang ◽

Changjiang Zhao ◽

Dawei Yin ◽

...

Keyword(s):

Organic Carbon ◽

Cation Exchange ◽

Total Nitrogen ◽

Cation Exchange Capacity ◽

Soil Phosphorus ◽

Soil Characteristics ◽

Exchange Capacity ◽

Kernel Weight ◽

Meadow Soil ◽

Maize Yields

To evaluate the effect of biochar on soil characteristics and maize yields in meadow soil, a three-year field experiment was performed using different amounts of biochar (0, 10, 20, 40, and 80 t/ha). The soil pH decreased over time when biochar was applied to weakly basic soil. Single biochar applications increased the organic carbon, total nitrogen, available K, and cation exchange capacity for three continuous years, in proportion to the amount of biochar applied. However, as time progressed, the soil organic carbon, total nitrogen, available K, and cation exchange capacity began to decrease. The biochar stimulated the availability of soil phosphorus in the meadow soil and stably increased the available P content in the soil for three years. For maize, the biochar application decreased the occurrence of barren ear tips and increased the ear length, grain number per row, 100-kernel weight, and yield. When the single applications of biochar were greater than 40 t/ha, the soil characteristics showed continuous improvements and the maize yields stably increased for three years.

Download Full-text

Effect of Mid-Term Cropping System Adoption on Soil Chemical Properties at Changunarayan Municipality, Bhaktapur, Nepal

Current Research in Agricultural Sciences ◽

10.18488/journal.68.2021.82.80.89 ◽

2021 ◽

Vol 8 (2) ◽

pp. 80-89

Author(s):

Saroj Koirala ◽

Santosh Shrestha ◽

Prashanta Raut ◽

Bikram Pandey ◽

Arbindra Timilsina

Keyword(s):

Organic Matter ◽

Total Nitrogen ◽

Soil Ph ◽

Cropping Systems ◽

C:N Ratio ◽

Chemical Properties ◽

Soil Chemical Properties ◽

Future Research ◽

Available Phosphorus ◽

Wide Range

Soil chemical properties plays a crucial role in crop yield. In this study, we evaluated the chemical properties of soils under three different cropping systems practiced for more than five years in Changunarayan municipality of Bhaktapur district of Nepal. The cropping systems includes- (i) cultivation inside polyhouse (Treatment A: polyhouse), (ii) paddy-wheat rotation (Treatment B: P-W), and (iii) paddy-wheat-vegetable rotation (Treatment C: P-W-V). Thirty-nine composite samples (13 replicates from each site) were taken from the area based on variation in landforms. Soil pH, organic matter (%), total nitrogen (%), available phosphorus (mgkg-1), and available potassium (mgkg-1) were evaluated for each sample. The study revealed that the soil pH was acidic and ranges between 4.71 and 5.39, organic matter (1.6-2.39%), total nitrogen (0.091-0.13%), phosphorus (4.48-29.24mg kg-1) and potassium (88.04-109.52 mg kg-1). A significant lower mean pH (4.71), and higher mean organic matter (2.39%), total nitrogen (0.13%) and available phosphorus (29.24 mgkg-1) were observed in cultivation under polyhouse. Incorporation of vegetable in paddy-wheat system gave significant (p<0.05) higher accumulation of soil phosphorus and consistently raised other nutrient status. Moreover, cultivation under polyhouse raised C:N ratio (10.55) significantly than other system. This finding can be relevant to wide range of readers that focus on soil chemical properties and can be used in developing future research strategy and sustainable soil management system in the area.

Download Full-text

Chemical properties of long-term irrigated Fluvisols of the Beli Drim river valley in the Klina region (Serbia)

Zemljiste i biljka ◽

10.5937/zembilj2101013t ◽

2021 ◽

Vol 70 (1) ◽

pp. 13-26

Author(s):

Miodrag Tolimir ◽

Branka Kresović ◽

Borivoj Pejić ◽

Katarina Gajić ◽

Angelina Tapanarova ◽

...

Keyword(s):

Cation Exchange ◽

Cation Exchange Capacity ◽

Humus Content ◽

Chemical Properties ◽

Base Cations ◽

Exchange Capacity ◽

Base Saturation ◽

Basic Cations ◽

Hydrolytic Acidity

The impact of long-term (> 100 yr) irrigation on soil chemical properties was studied on eight plots in the Beli Drim river valley in Kosovo and Metohija near Klina, Serbia. For these studies, soil samples from shallow profiles were collected from only one or two depth zones of the Ah horizon; and from moderately deep and deep profiles, from two to three depth zones for the purpose of comparing irrigated field and non-irrigated meadow lands. Water from the Beli Drim River and surface gravity systems (irrigation furrows or border strip irrigation) were used for irrigation. Chemical variables included determination of pH-H2O, content of CaCO3, content of humus, hydrolytic acidity, sum of basic cations, cation exchange capacity, and base saturation. On irrigated soils, the results of chemical analysis showed on average a small increase in pH-H2O (0.07 pH units), as well as a significant decrease in humus content (2.00-4.75%), sum of basic cations (4.98-12.98%) and cation exchange capacity (12.8%) compared to the non-irrigated land of the study area. Long-term irrigation had no effect on hydrolytic acidity and base saturation in the Ah horizon of the investigated lands. Namely, the mentioned variations in the chemical properties of the investigated soils show that slight processes of reduction in the humus content and reduction of the content of base cations occured. Data on the chemical properties of the investigated soils indicate that the destructive processes of reduction in the humus content and leaching of base cations must be controlled in order to achieve a stable sustainable system of high productivity and prevent their further deterioration.

Download Full-text

Characteristics of Soils Developing from Gabbro, Phyllite and Chert Parent Rock in Karangsambung District

Ilmu Pertanian (Agricultural Science) ◽

10.22146/ipas.32392 ◽

2019 ◽

Vol 4 (3) ◽

pp. 131

Author(s):

Ratna Taher ◽

Makruf Nurudin ◽

Eko Hanudin

Keyword(s):

Cation Exchange ◽

Cation Exchange Capacity ◽

Particle Density ◽

Chemical Properties ◽

Clay Content ◽

Exchange Capacity ◽

Parent Rock ◽

Soil Morphology ◽

Total N ◽

Organic C

Understanding the nature of the soil is very important to know the potential and the proper management of the soil. This study aimed to determine the differences in morphological, physical, and chemical properties of the soils developing from gabbro, phylitte and chert parent materials. The soil profile was made to represent each parent rock of gabbro, phyllite and chert located on the upper and middle slopes with pine-dominated vegetation and mixed gardens. Observation in the field is a professional description to observe soil morphology. Soil samples were taken at each horizon to analyze soil physical properties (bulk density, particle density, and texture), soil chemical properties (pH, exchanged cations, cation exchange capacity, available P, organic C, and total N). Texture analysis results showed that clay content of the soil developing from parent rock of Gabro 1 is the highest, followed by the soil clay content from Chert 1, Phyllite 1, Chert 2, Phyllite 2, and Gabbro 2, respectively. The order of soil acidity level (pH) is Gabbro 2 > Gabbro 1> Chert 1 ~ Chert 2 > Phyllite 1 ~ Phyllite 2. Meanwhile, the order of the cation exchange capacity is Gabbro 1> Gabbro 2> Phyllite 1> Chert 1> Phyllite 2> Chert 2, and the order of the base saturation is Chert 2> Gabbro 2> Chert 1> Phyllite 2 > Phyllite1> Gabbro 1.

Download Full-text

Chemical, Mineralogical, and Rheological Characterization of Regional Clays for Potential Use in Cosmetics and Pharmaceutical Products

10.5772/intechopen.97667 ◽

2021 ◽

Author(s):

Cochiran Pereira dos Santos ◽

Adriana de Jesus Santos

Keyword(s):

Cation Exchange ◽

Cation Exchange Capacity ◽

Chemical Properties ◽

Pharmaceutical Products ◽

Exchange Capacity ◽

Added Value ◽

Rheological Characterization ◽

X Ray ◽

Physical And Chemical ◽

Potential Use

Four clay samples from different deposits in the state of Sergipe, Brazil, were fractionated by dispersion and centrifugation for comparative tests with a standard commercial clay used for cosmetic and pharmaceutical purposes. For this, they were characterized by X-ray diffraction, X-ray fluorescence spectroscopy, measurements of cation exchange capacity, oil absorption and viscosity, in addition to particle sizes and plasticity indexes. The objective was to determine the physical and chemical properties of raw clays and the consequent granulometric fractions to evaluate their potential use in products with high added value. After fractionation, the samples showed significant amounts of smectite and kaolinite, which combined with the size, particle distribution, chemical composition, and high adsorption capacity, especially in the PDL and PV samples, make them potentially interesting for applications in pharmaceutical and cosmetic products, they can also be used in spas and esthetic centers for therapeutic purposes based on their softness and cation exchange capacity.

Download Full-text

Effects of Tree Forest Plantations on Soil Physicochemical Properties in the Arboretumof Ruhande,Southern Province of Rwanda

Rwanda Journal of Engineering Science Technology and Environment ◽

10.4314/rjeste.v3i1.6 ◽

2020 ◽

Vol 3 (1) ◽

Author(s):

Nsengimana Venuste

Keyword(s):

Organic Carbon ◽

Physicochemical Properties ◽

Cation Exchange ◽

Bulk Density ◽

Soil Ph ◽

Tree Species ◽

Cation Exchange Capacity ◽

Exchange Capacity ◽

Available Phosphorus ◽

Soil Physicochemical Properties

Different tree speciesare blamed to have negative effects on soil ecosystems by changing soil physicochemical properties, and hence soil quality. However, few researches to verify this statement were done in Rwanda. This study provides prior information on the effects of planted forest tree species on soil physicochemical properties. It was conducted in the Arboretum of Ruhande, in southern Rwanda. Soil cores were collected in plots of exotic, native and agroforestry tree species. Collected soils were analysed for soil pH, total nitrogen, organic carbon, available phosphorus, aggregate stability, bulk density, soil humidity, cation exchange capacity, and soil texture. Soils sampled under exotic tree species were acidic, richin soil organic carbon, and in soil available phosphorus. Native and agroforestry tree species offer better conditions in soil pH, soil water content, cation exchange capacity, clay and silt. Less variations in soil total nitrogen and soil bulk density were found in soils sampled under all studied forest types. Research concluded that studiedtree species have different effects on soil physicochemical parameters. It recommended further studies to generalize these findings. Key words: soil, exotic, native, agroforestry, soil properties

Download Full-text

Soil Chemical Properties and Fire Severity Assessment Using VNIR Proximal Spectroscopy in Fire-Affected Abandoned Orchard of Mediterranean Croatia

Agronomy ◽

10.3390/agronomy12010129 ◽

2022 ◽

Vol 12 (1) ◽

pp. 129

Author(s):

Ivana Šestak ◽

Paulo Pereira ◽

Leon Josip Telak ◽

Aleksandra Perčin ◽

Iva Hrelja ◽

...

Keyword(s):

Fire Severity ◽

Chemical Properties ◽

Exchange Capacity ◽

Soil Chemical Properties ◽

Burned Area ◽

Available Phosphorus ◽

Least Squares Regression ◽

Burned Areas ◽

Soil Features ◽

Reflectance Data

This paper aims to evaluate the ability of VNIR proximal soil spectroscopy to determine post-fire soil chemical properties and discriminate fire severity based on soil spectra. A total of 120 topsoil samples (0–3 cm) were taken from 6 ha of unburned (control (CON)) and burned areas (moderate fire severity (MS) and high fire severity (HS)) in Mediterranean Croatia within one year after the wildfire. Partial least squares regression (PLSR) and an artificial neural network (ANN) were used to build calibration models of soil pH, electrical conductivity (EC), CaCO3, plant-available phosphorus (P2O5) and potassium (K2O), soil organic carbon (SOC), exchangeable calcium (exCa), magnesium (exMg), potassium (exK), sodium (exNa), and cation exchange capacity (CEC), based on soil reflectance data. In terms of fire severity, CON samples exhibited higher average reflectance than MS and HS samples due to their lower SOC content. The PCA results pointed to the significance of the NIR part of the spectrum for extracting the variance in reflectance data and differentiation between the CON and burned area (MS and HS). DA generated 74.2% correctly classified soil spectral samples according to the fire severity. Both PLSR and ANN calibration techniques showed sensitivity to extract information from soil features based on hyperspectral reflectance, most successfully for the prediction of SOC, P2O5, exCa, exK, and CEC. This study confirms the usefulness of soil spectroscopy for fast screening and a better understanding of soil chemical properties in post-fire periods.

Download Full-text