Data onFe(II)biosorptiononto Sargassum hystrix algae obtainedfromthePersianGulfinBushehr Port, Iran

In thisarticle,weused Sargassum hystrix algae asbiosorbentfor removalofFe(II)fromaqueoussolutionsthatwascollectedalong the PersianGulfcoastline,Bushehr,Iran.Theconcentrationlevelof remaining Fe(II)inthesampleswasmeasuredbyusing flame atomic absorptionspectrometry(FAAS,VarianAA240,Australia). The isotherms,kineticsandmodelingdataofFe(II)biosorption onto Sargassum hystrix werealsopresented

Wet deposition of hydrocarbons in the city of Tehran-Iran

Air pollution in the city of Tehran has been a major problem for the past three decades. The direct effects of hydrocarbon contaminants in the air are particularly important such as their carcinogenic, mutagenic, and teratogenic effects which can be transported to other environments via dry and wet deposition. In the present study, rainwater samples were collected and analyzed for 16 polycyclic aromatic hydrocarbons (PAHs), benzene, toluene, ethyl benzene, and xylene (BTEX) as well as fuel fingerprints in two ranges of gasoline (C5–C11) and diesel fuel (C12–C20) using a gas chromatograph equipped with a flame ionization detector (GC/FID). Mean concentrations of ∑16 PAHs varied between 372 and 527 µg/L and for BTEX was between 87 and 188 µg/L with maximum of 36 µg/L for toluene. Both gasoline range hydrocarbons (GRH) and diesel range hydrocarbons (DRH) were also present in the collected rainwater at concentrations of 190 and 950 µg/L, respectively. Hydrocarbon transports from air to soil were determined in this wet deposition. Average hydrocarbon transportation for ∑PAHs, BTEX, GRH, and DRH was 2,747, 627, 1,152, and 5,733 µg/m2, respectively

Volatile constituents of essential oils isolated from flowers and leaves of M.officinalis L.

Volatile components of leaves of Melissa officinalis L. (Lamiaceae family) from Iran were investigated. Essential oils were isolated by hydrodistillation from leaves of Melissa officinalis. Twenty-one constituents in the leaves oil were identified. Major constituents of the leaves oil were: trans-b-ocimene (4.5%), citronellal (3.21%), cadinol isomer (3.45%), neral (4.32%), geranial (8%), bcaryophyllene (16%), b-cubebene (10.21), calarene (4.32%), b-cadinene (4%), sesquiterpene alcohol (10.43%) and a-cadinol(9.05%). However, there were significant differences among the rates of those reported components. In conclusion, it is worthwhile to screen the commonly used plants from the local flora for different biological activities because they might present a new alternative source for possible bioactive substances