Refine search
Results 1-4 of 4
Assessment of Inorganic Phosphorus Fractions of Fruit and Vegetable Dumpsite Soils as a Strategy for Mitigating Eutrophication Hazard Full text
2025
Rejoice Ibrahim Solomon | Binamem Simon | Aishatu Mala Musa | Yusuf Shehu
Phosphorus is essential for plant growth, but mishandling phosphorus-rich waste can harm the environment. This study assessed inorganic phosphorus from fruit and vegetable dumpsite soils and its relation to soil properties. Fifteen (15) soil samples were collected and homogenized into five (5) representative samples each from the dumpsites at depths of 0-15cm, 15-30cm, and 30-60cm and were analyzed for calcium-bound phosphorus (Ca-P), reductant soluble phosphorus (RS-P), Fe-bound Phosphorus (Fe-P), aluminium-bound phosphorus (Al-P), and Soluble/loosely bound P. The data obtained was analyzed using the student’s t-test to compare the different fractions in fruit and vegetable dumpsite soils. The results showed no significant differences between fruit and vegetable dumpsite soils in all the inorganic P fractions. However, vegetable dumpsite soils recorded higher soluble P, Al-P, Fe-P, RS-P, and Ca-P levels of 11.65, 36.29, 41.95, 40.75, and 41.35 mg/kg, respectively. These values were not significantly different from 9.75, 34.01, 39.28, 37.11 and 41.03 mg/kg recorded by fruit dumpsite soil for soluble P, Al-P, Fe-P, RS-P and Ca-P respectively. Results also revealed that reductant soluble P, Calcium bound P, and Na+ with an R2 value of 0.88 had a combined significant influence on the concentration of soluble P. However, the concentration of the inorganic P fractions for vegetable dumpsite soil is in the order; Fe-P> Ca-P>RS-P>Al-P>soluble P, while that of fruit dumpsite soil is in the order; Ca-P>Fe-P> RS-P>Al-P>soluble P. Soluble phosphorus significantly impacts eutrophication due to its rapid release into water. However, low levels of soluble P in fruit and vegetable dumpsite soils are not a major concern. In vegetable dumpsite soil, Fe-P would pose a greater threat during anoxic events while, in fruit dumpsite soil, Ca-P would contribute more to eutrophication due to its high concentration in this soil, especially in alkaline conditions.
Show more [+] Less [-]Assessment of Inorganic Phosphorus Fractions of Fruit and Vegetable Dumpsite Soils as a Strategy for Mitigating Eutrophication Hazard Full text
2025
Rejoice Ibrahim Solomon | Binamem Simon | Aishatu Mala Musa | Yusuf Shehu
Assessment of Inorganic Phosphorus Fractions of Fruit and Vegetable Dumpsite Soils as a Strategy for Mitigating Eutrophication Hazard Full text
2025
Rejoice Ibrahim Solomon | Binamem Simon | Aishatu Mala Musa | Yusuf Shehu
Phosphorus is essential for plant growth, but mishandling phosphorus-rich waste can harm the environment. This study assessed inorganic phosphorus from fruit and vegetable dumpsite soils and its relation to soil properties. Fifteen (15) soil samples were collected and homogenized into five (5) representative samples each from the dumpsites at depths of 0-15cm, 15-30cm, and 30-60cm and were analyzed for calcium-bound phosphorus (Ca-P), reductant soluble phosphorus (RS-P), Fe-bound Phosphorus (Fe-P), aluminium-bound phosphorus (Al-P), and Soluble/loosely bound P. The data obtained was analyzed using the student’s t-test to compare the different fractions in fruit and vegetable dumpsite soils. The results showed no significant differences between fruit and vegetable dumpsite soils in all the inorganic P fractions. However, vegetable dumpsite soils recorded higher soluble P, Al-P, Fe-P, RS-P, and Ca-P levels of 11.65, 36.29, 41.95, 40.75, and 41.35 mg/kg, respectively. These values were not significantly different from 9.75, 34.01, 39.28, 37.11 and 41.03 mg/kg recorded by fruit dumpsite soil for soluble P, Al-P, Fe-P, RS-P and Ca-P respectively. Results also revealed that reductant soluble P, Calcium bound P, and Na+ with an R2 value of 0.88 had a combined significant influence on the concentration of soluble P. However, the concentration of the inorganic P fractions for vegetable dumpsite soil is in the order; Fe-P> Ca-P>RS-P>Al-P>soluble P, while that of fruit dumpsite soil is in the order; Ca-P>Fe-P> RS-P>Al-P>soluble P. Soluble phosphorus significantly impacts eutrophication due to its rapid release into water. However, low levels of soluble P in fruit and vegetable dumpsite soils are not a major concern. In vegetable dumpsite soil, Fe-P would pose a greater threat during anoxic events while, in fruit dumpsite soil, Ca-P would contribute more to eutrophication due to its high concentration in this soil, especially in alkaline conditions.
Show more [+] Less [-]In vitro antifungal activity of chitosan on Bipolaris oryzae, rice pathogen | Actividad antifúngica in vitro de quitosanos sobre Bipolaris oryzae, patógeno del arroz Full text
2016
Rodríguez Pedroso, Aida Tania | Plascencia Jatomea, Maribel | Bautista Baños, Silvia | Cortéz Rocha, Mario Onofre | Ramírez Arrebato, Miguel Ángel
The aim of this study was to determine the effect and Media Inhibitory Concentration (MIC50), of chitosans of different molecular masses on mycelial growth, hyphal diameter, structural changes, spore germination and fungal biomass production B. oryzae. The results indicated that the average molecular mass chitosan showed higher inhibitory effect (p≤0.05); however, the low molecular weight chitosan affected more hyphal diameter at the highest concentration used (4000 mg/l) Observations of hyphae through the scanning electron microscopy (SEM) showed that the fungus treated with chitosan at the concentration of 3000 mg/l achieved a high spore production. The average molecular mass chitosan had the lowest MIC value was 2182.9 mg/l. The germination of spores treated with CMI50 was affected and biomass production of the fungus. | En el presente trabajo se evaluó el efecto y la Concentración Media Inhibitoria (CMI50) de quitosanos de diferentes masas moleculares en el crecimiento micelial, el diámetro de las hifas, los cambios estructura-les, la germinación de esporas y la producción de biomasa del hongo Bipolaris oryzae. Los resultados mostraron que el quitosano de masa molecular media presentó mayor efecto inhibitorio (P ≤ 0.05); sin embargo, el quitosano de masa molecular baja afectó más el diámetro de las hifas a la mayor concentra-ción utilizada (4000 mg/l). Las observaciones de las hifas realizadas por Microscopía Electrónica de Ba-rrido (MEB) mostraron que el hongo tratado con quitosano a la concentración de 3000 mg/l presentó una alta producción de esporas. El quitosano de masa molecular media presentó el valor más bajo (2182.9 mg/l). La germinación de las esporas tratadas con CMI50 y la producción de biomasa del hongo fueron afectadas por el quitosano.
Show more [+] Less [-]Management Model of Lakes as a tool for planning the remediation of Suat Uğurlu Lake Full text
2017
Bilge Aydın Er | Tolga Ayeri | Fulya Aydın Temel | Nurdan Gamze Turan | Yüksel Ardalı
Ecological processes that occur in a lake depend on the physico-chemical (abiotic) and biotic factors of the system and the interrelations between them. It can be concluded that the current nutrient loadings from both point and non-point sources are cause to increase eutrophic case over the years. This study indicate that the sustainable utilization of reservoir in combination with proper wastewater treatment plant and controlled use of pesticides has a potential to reduce the current nutrient loadings into Suat Uğurlu Lake. The estimated nutrient reductions that could be achieved from the management scenario would be enough to revert the lake from mesotrophic situation to trophic state. The reduction of nutrient loadings into Suat Uğurlu Lake could be achieved through the practice of Integrated Water Resource Management (IWRM), through good management. However, as long as pertinent issues of urban poverty, watershed management and public awareness and involvement in water related issues are not addressed, trophic in Suat Uğurlu Lake will remain a problem.
Show more [+] Less [-]Management Model of Lakes as a tool for planning the remediation of Suat Uğurlu Lake Full text
2017
Bilge Aydın Er | Tolga Ayeri | Fulya Aydın Temel | Nurdan Gamze Turan | Yüksel Ardalı
Ecological processes that occur in a lake depend on the physico-chemical (abiotic) and biotic factors of the system and the interrelations between them. It can be concluded that the current nutrient loadings from both point and non-point sources are cause to increase eutrophic case over the years. This study indicate that the sustainable utilization of reservoir in combination with proper wastewater treatment plant and controlled use of pesticides has a potential to reduce the current nutrient loadings into Suat Uğurlu Lake. The estimated nutrient reductions that could be achieved from the management scenario would be enough to revert the lake from mesotrophic situation to trophic state. The reduction of nutrient loadings into Suat Uğurlu Lake could be achieved through the practice of Integrated Water Resource Management (IWRM), through good management. However, as long as pertinent issues of urban poverty, watershed management and public awareness and involvement in water related issues are not addressed, trophic in Suat Uğurlu Lake will remain a problem.
Show more [+] Less [-]