19 research outputs found
Method development and validation of simultaneous determination of seventeen metals in water by ICP/MS
A simple, precise, accurate, and sensitive method is developed and validated for simultaneous determination of seventeen metals (Li, Sr, Ba, Tl, Pb, Bi, Al, K, Cr, Mn, Co, Ni, Cu, Zn, Mo, Ag, and Cd) in water by ICP-MS. The optimum conditions of the ICP-MS are as follows: nebulizer gas (argon) flow rate: 0.9 L/min, auxiliary gas (argon) flow 0.3 L/min, plasma (argon) gas flow: 15 L/min, reaction gas flow (helium) 4mL/min. This method is validated according to the requirements for new methods, which include linearity and range, accuracy, precision, selectivity, limit of detection (LOD), and limit of quntitation (LOQ). The current method demonstrates good linearity over the range of 1-1000 ppb with r2 greater than 0.999 for the seventeen metals. The recovery of the metals from water samples ranges from 97.5 to 101.7%. The method is selective where minimal interferences between the metals is observed (CeO/Ce = 1%, and Ce+2/Ce+1 = 1%), and with good resolution (0.8 amu at 10% height). The method is also precise where the RSD of the responses (cps) of replicates of the metals at three concentration levels is less than 1%. Low LOD and LOQ of metals using this method enable the detection and quantitation of these metals at low concentrations. Real water samples from West Bank in Palestine (groundwater) were analyzed for their trace metals content using this method
Method development and validation of simultaneous determination of seventeenmetals in water by ICP/MS
A simple, precise, accurate, and sensitive method is developed and validated for simultaneous determination of seventeen
metals (Li, Sr, Ba, Tl, Pb, Bi, Al, K, Cr, Mn, Co, Ni, Cu, Zn, Mo, Ag, and Cd) in water by ICP-MS. The optimum conditions
of the ICP-MS are as follows: nebulizer gas (argon) flow rate: 0.9 L/min, auxiliary gas (argon) flow 0.3 L/min, plasma
(argon) gas flow: 15 L/min, reaction gas flow (helium) 4mL/min. This method is validated according to the requirements for
new methods, which include linearity and range, accuracy, precision, selectivity, limit of detection (LOD), and limit of
quntitation (LOQ). The current method demonstrates good linearity over the range of 1-1000 ppb with r2 greater than
0.999 for the seventeen metals. The recovery of the metals from water samples ranges from 97.5 to 101.7%. The method
is selective where minimal interferences between the metals is observed (CeO/Ce = 1%, and Ce+2/Ce+1 = 1%), and with
good resolution (0.8 amu at 10% height). The method is also precise where the RSD of the responses (cps) of replicates
of the metals at three concentration levels is less than 1%. Low LOD and LOQ of metals using this method enable the
detection and quantitation of these metals at low concentrations. Real water samples from West Bank in Palestine
(groundwater) were analyzed for their trace metals content using this method
Analysis of Different Rare Metals, Rare Earth Elements, and other Common Metals in Groundwater of South West Bank/Palestine by ICP/MS-Data and Health Aspects
Ground water samples are collected from south West Bank/Palestine and analyzed for different rare elements (Rb, Zr, U, P, Ti, V), rare earth elements (La, Ce, and Nd), and other common trace metals (Li, Na, Mg, Ca, Sr, Ba, K, Bi) that most of them usually have no maximum acceptable limits as either they are considered not to be toxic to human health or there is no sufficient data about their toxicity to human health. This study was conducted to determine the water quality of ground water which is used for drinking in the study area. Water samples from ten groundwater wells were obtained in three different dates of the year (November 2012, March 2013, and April 2013). Three water samples were obtained from each well for each sampling date; so a total of 90 water samples were collected from the ten wells. The results obtained from this study suggest a possible risk to the population of the study area given the high concentration of some metals that have no maximum allowed concentration, and the fact that for many people in the study area, ground water is a main source of their water supply.The authors are grateful for the German research funding organisation (Deutsche Forschungsgemeinschaft), DFG for their financial support through TRION project
Pure Isolates and Preparative HPLC Fractions or Crude Extract of Inula viscosa: Effect on β-hematin Inhibition in vitro
The antimalarial activity of wild Inula viscosa (I. viscosa) plant leaves was investigated. The efficacy of the whole crude extract versus preparative HPLC fractions versus pure isolates were compared by measuring their effect on β-hematin inhibition in-vitro. The preparative HPLC experiments consisted of reversed phase preparative column (22.2mm x 250mm, 10μm) and linear gradient of water, acetonitrile as the mobile phase. Injection volume was 1000μl and the wavelengths range were from 200-450 nm using photodiode array detector (PDA). While fractions (IV, V and VI) showed antimalarial potential in comparison to chloroquine positive control, the rest of the fractions did not show any significant inhibition to the β-hematin formation. The antimalarial results showed that whole crude exact of the plant works better than the preparative fractions or the pure isolates presumably due to synergistic effect. The chemical identity of some of the pure isolates was explored using UHPLC-ESi-MS. Moreover, I. viscosa extract powder stayed stable over several years, while many other products such as Artemisia annua extract or Artemisin Combined Therapy (ACT) drugs rapidly lost their efficiency under tropical storage conditions.None
HPLC separation of phenolic phytochemicals from grape peels and seeds water extracts and their in-vitro antimalarial activities
Water extracts of three grape types (black, shami and white) were separated using reversed phase HPLC-PDA and their in-vitro effect on β-hematin inhibition were investigated. The grape crude water extracts of peels and seeds impede the formation of β-hematin in vitro and therefore possess a significant antimalarial effect. Black grape peel extract gave superior activity as revealed by its absorption value in comparison to CQ positive control. In general, black and shami peels water extracts were slightly more active than their corresponding seeds extracts while surprisingly, the white grape peel extract was completely inactive. The same inactivity was noticed when black, shami and white grape juices as well as red and white wines were examined in-vitro. The lack in white grapes of the active phytochemicals that present at high levels in black and shami grapes explains the inactivity of the former. Several secondary plant phenolic metabolites may be responsible for the antimalarial activity and subsequently, one could infer that the antimalarial activity of water extract may be a result of the synergistic effect of its diverse phenolic phytochemicals.None
Utilization of desalinated brackish water residues for cultivation of the marine fish species,Dicentrarchus labrax, Sparus aurata, and Sciaenops ocellatus
The utilization of brackish water residues from desalination units for fish mariculture in
Palestine could represent an environmental friendly alternative of disposing brine water which could have
an adverse effect on wild life. In this study, three juvenile marine fish species (Gilt-head bream S.
aurata, European sea bass D. labrax, and red drum S. ocellatus) with average weights of 0.7-4.9 g, were
acclimated and reared in brine brackish water residues collected from Jericho desalination units with
salinities of 6.5 ‰ and 11 ‰ diluted sea water as control for 3-7 months. Fish were fed 56 % rich
protein diet. Brine brackish water contained high levels of Cl-1 (3369 mgL-1), Na+1(3735 mgL-1), K+1(300
mgL-1), SO4
-2 (716 mgL-1) with the divalent ions Mg+2 (57.3 mgL-1) and Ca+2 (276 mgL-1).The
experimental well showed more than the maximum allowable concentration of Cr (14.49 μgL-1), Ag (5.3
μgL-1) and Mn (27.88 μgL-1) for water quality of fisheries use. The sea bass with an average weight of
0.76 g (at a salinity of 6.5 ‰) showed an acceptable growth performance parameters and reached a
percentage weight gain (% WG) of 6345.23 % and a survival rate of 77.5 % compared to control groups
at 11 ‰ that reached at the same time a % WG of 6543.78 % and a survival rate of 82 % after 30
weeks. The red drum juveniles reached a % WG of 2661.6 % and 2673.92 % after 15 weeks at 6.5 ‰
and 11 ‰ respectively while sea bream reached a % WG of 241.63 % and 772.44 % after 15 weeks at
6.5 ‰ and 11 ‰ respectively. Survival rate was only 5 % at both salinities for the two species. In a
further study sea bass fingerlings with an average weight of 20.5 g were reared in brackish water of 6.5
‰ salinity for 7 weeks and were fed superior fish meal with fish oil. They received diets of 2.1 %, 3.0
%, and 4.0 % of body weight. Sea bass fingerlings which received diets of 2.1 %, had the highest FCE
(0.82) and PER (1.46) with the lowest FCR (1.22). These results confirm that the most suitable fish for
cultivation utilizing brackish water from Jericho desalination units with salinity of 6.5 ‰ is sea bass D.
labrax, while the other two species need some modification to acclimatize to this water. Furthermore, the
best food % for optimum growth of sea bass at this salinity is 2.1 % after 7 weeks. Brackish water from
Jericho desalination units are suitable for cultivation of these species, but may need some modification
as adding salts to fish diet or water and reducing toxicity of some high trace metals present by a
suitable method
Determination of trace heavy metals in harvested rainwater used for drinking in Hebron (south West Bank, Palestine) by ICP-MS
Rainwater samples harvested for drinking
from the west part of Hebron (south of West Bank in
Palestine), the largest city in the West Bank, were analyzed
for the content of different trace heavy metals (Cr,
Mn, Co, Ni, Cu, Zn, Mo, Ag, Cd, Bi, and Pb) by
inductively coupled plasma mass spectrometry (ICPMS).
This study was conducted to determine the water
quality of harvested rainwater used for drinking of south
West Bank (case study, Hebron area).A total of 44water
samples were collected in November 2012 from 44
house cisterns used to collect rainwater from the roofs
of houses. The samples were analyzed for their pH,
temperature, electrical conductivity, total dissolved
solids, and different heavy metal contents. The pH of
all water samples was within the US Environmental
Protection Agency limits (6.5–8.5), while some water
samples were found to exceed the allowed WHO limit
for total dissolved solids (TDSs) in drinking water.
Results showed that concentrations of the heavy metals
vary significantly between the 44 samples. Results also showed that the concentration of five heavy metals (Cr,
Mn, Ni, Ag, and Pb) is higher than the WHO limits for
these heavy metals in drinking water. Overall, our findings
revealed that harvested rainwater used for drinking
of this part of south West Bank is contaminated with
heavy metals that might affect human health.The authors are grateful for the German
research funding organization (Deutsche Forschungsgemeinschaft
(DFG)) for their financial support through TRION project
Determination of Different Trace Heavy Metals in Ground Water of South West Bank/Palestine by ICP/MS
Heavy metal contamination of the groundwater of south West Bank in Palestine was assessed. The groundwater sam- ples were analyzed for different trace heavy metals (Tl, Pb, Bi, Cr, Mn, Co, Ni, Cu, Zn, Mo, Ag, and Cd), and Al con- tent by ICP/MS. This study was conducted to determine the water quality of ground water which is used for drinking in the study area. Water samples from ten groundwater wells were obtained in four different dates of the year (October 2012, November 2012, March 2013, and April 2013). Three water samples were obtained from each well for each sam- pling date. A total of 120 water samples were collected from the ten wells. The samples were analyzed for their pH, electrical conductivity, total dissolved solids, and different trace metals content. The pH, electrical conductivity, and total dissolved solids of all water samples were found to be within the US Environmental protection Agency limits. Re- sults showed that Pb, Al, Cr, Co, Ni, Cu, Zn, and Mo were detected in all water samples analyzed in this study, while Tl, Bi, Mn, Ag, and Cd were detected in 80%, 88%, 90%, 75%, and 95% of the water samples analyzed in this study, re- spectively. In general, 93% of all samples analyzed contained one or more of the 13 metals studied each in varying concentration. Furthermore, results showed that the concentration of Cr, Mn, Ni, Cu, Zn, and Mo is within the allowed WHO limits in drinking water. However the concentration of Pb Cd, and Al are found to be higher than the allowed WHO limits in 40%, 8%, and 33% of the water samples analyzed in this study, respectively. Statistical analyses showed that concentrations of the metals studied in this study vary significantly between the ten ground water wells, indicating that the wells analyzed in this study is different from each other in terms of heavy metal content. Additionally, from the statistical results obtained, it was found that there is a significant difference in the concentration of the metals in each well for the four sampling times (October 2012, November 2012, March 2013, and April 2013), denoting that metal concentration in the wells vary significantly with sampling time. The results obtained from this study suggest a possible risk to the population of the study area given the toxicity of these metals, and the fact that for many people in the study area, ground water is a main source of their water supply.The authors are gratefully for German research funding organization (Deutsche Forschungsgemeinschaft), DFG for their financial support through TRION project
Calcium isotope fractionation during the partial dissolution of artificial calcite
We studied the calcium (Ca) isotope fractionation during the partial dissolution of artificial calcite in pure water and in artificial seawater at 20 ◦C. Calcite (1.00 g) was stirred in 500 ml solution while bubbling it with air rich in CO2 gas (400 and 500 ppm). Depending on the composition of the dissolving medium, the measured pH close to equilibrium decreased with increasing concentration of CO2 in air. The dissolution rate (R*; μmol/m2.h) increased with the concentration of CO2 in air. The Ca isotope composition (δ 44/40Ca) of the dissolved Ca in pure water during different intervals of partial dissolution process was almost constant and very close to that of calcite (1.06‰ ± 0.11‰). This phenomenon indicated that partial dissolution occurred without Ca isotope fractionation. By contrast, the isotope composition of Ca in artificial seawater (0.92‰ ± 0.17‰) was almost constant during the partial dissolution of calcite (9%.Acknowledgment
We wish to thank A. Kolevica for the laboratory support and A. Eisenhauer for providing the laboratory and mass spectrometer at the IFM-Geomar, Leibniz Institute of Marine Sciences/Kiel
Assessment of Groundwater Pollution with Heavy Metals in North West Bank/Palestine by ICP-MS
Groundwater of North West Bank in Palestine was assessed for pollution with trace metals by ICP/MS. The
samples were analysed for their pH, electrical conductivity, total dissolved solids, and different trace metals content.
The pH, electrical conductivity, and total dissolved solids of all water samples were found to be within the
US Environmental protection Agency limits. Results showed that the concentration of nine trace metals (Cr, Mn,
Ni, Cu, Zn, Mo, Pb, Cd, and Al) is within the WHO limits in drinking water (50, 500, 20, 2000, 3000, 70, 10, 3,
and 200 ug/L, respectively), however six metals of them (Cr, Mn, Ni, Cu, Mo, and Al) were detected in 100% of
the samples, while Pb, Cd, and Zn were detected in 80%, 60%, and 20% of the samples, respectively. On the
other hand, Tl which is a very toxic heavy metal with allowed WHO limits of 0.01 - 1 ug/L is detected in 100% of
the water samples analysed with a range of 0.02 - 0.12 ug/L. It indicates that such concentration levels of Tl
would be harmful to the human being drinking the water. In general, 82% of all samples analysed contained one
or more of the 12 metals studied each in varying concentration. Results of this study suggest a possible risk to the
people of the study area given the toxicity of heavy metals, and the fact that for many people in the study area,
groundwater is a main source of their water supply.The authors thank the German Research Foundation
(Deutsche Forschungsgemeinschaft), DFG for their financial
support through TRION project