Effects of urban wastewater application on growth, biomass, nutrition, and heavy-metal accumulation of Populus nigra L. "62/154," P. alba L. "20/45," P. euramericana (Dode) Guinier "92/40," and Salix excelsa S.G. Gmel grown in heavy-metal contaminated soil.

Iran is located in a dry climate zone, and climate change has substantially reduced its precipitation and water resources. Reusing wastewaters from urban communities can meet some requirements for irrigation and fertilization of tree plantations in arid environments, leading to sustainable wastewater recycling, enhanced biomass production, and reduced land degradation. The objective of this study was to test the growth, biomass, nutrition, and heavy-metal accumulation of poplars [Populus nigra L. "62/154," P. alba L. "20/45," P. euramericana (Dode) Guinier "92/40"], and willow (Salix excelsa S.G. Gmel) in a pot experiment at four and eight months after planting when grown in soils irrigated with tap water (SITW) and wastewater (SIWW). After four months, SIWW treatment had no significant effect on growth, biomass, nor absorption of macronutrients. After eight months, SIWW treatment of poplars and willow significantly (p = 0.000) increased: (1) height, (2) leaf area, (3) root, stem, leaf, and total biomass, and (5) phytoextraction and phytoaccumulation of macro-/micro-nutrients and heavy metals in tree tissues, over trees receiving the SITW treatment. There were significant differences in growth, biomass, and accumulation of micronutrients and heavy metals in poplar versus willow tissues, with the highest biomass production and tissue-specific content of heavy metals in P. nigra trees, and the greatest total concentrations of heavy metals in P. alba and S. excelsa trees. In contrast, uptake of Fe, Cu, Ni, Cr and Pb were similar between poplar and willow, and phytoaccumulation of these elements was primarily in the roots. Leaf concentrations were highest for Zn and Mn. While P. nigra outperformed all other species overall, tolerance index (TI; defined as the tolerance to the heavy metals as calculated by the ratio of the biomass of SIWW trees relative to SITW trees) values exceeding 100% for all one-year-old poplar and willow trees demonstrated that they can be considered for planting in soil affected by urban wastewaters with similar contaminant profiles as in the current study.

Since the species would differ in their growth, biomass, and phytoremediation responses to the nutrient and heavy metal concentrations of the wastewater over time, this research is important for the development of silvicultural prescriptions of these fast-growing trees that support effective wastewater reuse strategies throughout heterogeneous landscapes and across variable human community resources and needs.

Assessment of the Cannabinoid Content from Different Varieties of Cannabis sativa L. during the Growth Stages in Three Regions.

Hemp (Cannabis sativa L.) belongs to the Cannabaceae family. It is very rich in chemical constituents, especially the cannabinoids which has not been reported in any other plant, and has broad pharmacological properties. Hemp as a multi-purpose crop is a good source of fibers, seed, fixed and volatile oil. It is known that the cannabinoid content of hemp is related to genetic factors, as well as plant's growth stages and environmental factors such as latitude, altitude, weather, particularly moisture availability and nutrient supply during the growing season. The present study was designed to produce hemp that contains allowable concentration of THC (<3 %) by comparing different varieties of hemp, different stages of plant growth, and different geographical locations where it was planted. To achieve this, seeds of two native populations from Iran (Fars and Yazd Provinces) and one foreign variety from France (Fedora17, as an industrial hemp cultivar) with its progenies (Fedora17-2) were cultivated in 3 research fields (Gilan, Golestan and Alborz provinces) in Iran. The following plant materials were extracted with methanol/chloroform and analyzed by HPLC: foliage in the vegetative stage, inflorescent in the flowering stage, inflorescent of seeds in the seeding stage and the mature seed. The THC concentration of Fedora17 (Fed17) in all three geographical locations was found to be under 0.03 % or even non-detectable. Same result was also observed in its progenies (Fed17-2), indicating stability of the trait in this cultivar. The THC concentration of the Yazd variety that was planted in Alborz and Gilan regions was less than 0.080 % in all growth stages. The female flowers planted in Golestan, showed a THC concentration of 1.029 % which was more than the allowed THC concentration of <3 %. The THC concentration in all growth stages of all of the different varieties planted varied from 0 to 1.392 %. The above results indicates that the type of cannabinoid produced depends on the difference in genetic prosperities of the different seed types as well as the growth stage in which the plant material was extracted. On the other hand, the climate and the region in which the seeds were planted had little influence on the THC concentration.