Cadmium exposure is associated with increased transcript abundance of multiple heavy metal associated transporter genes in roots of hemp (Cannabis sativa L.)

Abstract: Industrial hemp (Cannabis sativa L.) has demonstrated promise for phytoremediation due to an extensive root system, large biomass, and ability to survive under relatively high levels of heavy metals. However, little research has been conducted to determine the impact of heavy metal uptake in hemp grown for medicinal use. This study evaluated the potential for cadmium (Cd) uptake and its impact on growth, physiological responses, and transcript expression of metal transporter genes in a hemp variety grown for f… Show more

“…In contrast, the DLS variety, T1 had similar Cd concentrations in roots, leaf, and stem tissue upon exposure to Cd. These results are consistent with previous literature, which reported that roots were the preferred tissue for Cd accumulation in hemp [27,34,35,40,41] and that Cd accumulation increased with increasing Cd concentrations in the growing media [39]. For instance, Cd concentrations in the roots of C. sativa fiber variety Santhica 27 exposed to 20 µM Cd (2.25 mg•L −1 Cd) for one week averaged 2687 mg•kg −1 dw, while Cd concentrations in stems and leaves averaged 1243 mg•kg −1 dw and 717 mg•kg −1 dw, respectively [34].…”

“…This suggests that the DLS varieties used in the present study may be more tolerant to Cd exposure at 2.5 mg•L −1 than the DN varieties evaluated. These results agree with previous studies that have reported a decrease in shoot biomass of hemp plants exposed to Cd [26,34,35,39].…”

“…Plants were grown for 3 weeks in the base nutrient solution after which nutrient solutions were replaced completely and Cd treatments were added using CdSO 4 •8H 2 O, to achieve 0 (control) and 2.5 mg•L −1 Cd. Cadmium concentrations were chosen based on the results of previous studies [34,35], which evaluated hemp exposure to Cd in hydroponic systems. The experimental treatments were arranged in a randomized complete block design with four hemp varieties exposed to two levels of Cd with four replicates each.…”

“…For instance, Cd concentrations in the roots of C. sativa fiber variety Santhica 27 exposed to 20 µM Cd (2.25 mg•L −1 Cd) for one week averaged 2687 mg•kg −1 dw, while Cd concentrations in stems and leaves averaged 1243 mg•kg −1 dw and 717 mg•kg −1 dw, respectively [34]. Additionally, the C. sativa medicinal variety Purple Tiger exposed to 2.5 mg•L −1 Cd for 68 days had average Cd concentrations of 1982.6 mg•kg −1 dw in roots, 13.2 mg•kg −1 dw in leaves, 5.1 mg•kg −1 dw in stems, and 7.6 mg•kg −1 dw in flowers [35]. All varieties had increased concentrations of Cd in all plant tissues exposed to Cd in the nutrient solution, except in the floral tissues of T1.…”

“…Few studies have evaluated heavy metal accumulation in hemp flowers, with most research utilizing fiber hemp varieties to determine heavy metal uptake for phytoremediation purposes [16,17,19,34]. Due to the harmful effects of Cd and other heavy metals on human health, the U.S. hemp industry has attempted to implement standards regarding maximum allowable levels of metals in C. sativa consumer products, which vary by state [35]. As hemp flowers are increasingly grown for the medicinal market, determining Cd distribution among plant organs, as well as bioconcentration and root-to-shoot translocation factors, are of importance.…”

Cadmium Bioconcentration and Translocation Potential in Day Neutral and Photoperiod Sensitive Hemp Grown Hydroponically for the Medicinal Market

“…In contrast, the DLS variety, T1 had similar Cd concentrations in roots, leaf, and stem tissue upon exposure to Cd. These results are consistent with previous literature, which reported that roots were the preferred tissue for Cd accumulation in hemp [27,34,35,40,41] and that Cd accumulation increased with increasing Cd concentrations in the growing media [39]. For instance, Cd concentrations in the roots of C. sativa fiber variety Santhica 27 exposed to 20 µM Cd (2.25 mg•L −1 Cd) for one week averaged 2687 mg•kg −1 dw, while Cd concentrations in stems and leaves averaged 1243 mg•kg −1 dw and 717 mg•kg −1 dw, respectively [34].…”

“…This suggests that the DLS varieties used in the present study may be more tolerant to Cd exposure at 2.5 mg•L −1 than the DN varieties evaluated. These results agree with previous studies that have reported a decrease in shoot biomass of hemp plants exposed to Cd [26,34,35,39].…”

“…Plants were grown for 3 weeks in the base nutrient solution after which nutrient solutions were replaced completely and Cd treatments were added using CdSO 4 •8H 2 O, to achieve 0 (control) and 2.5 mg•L −1 Cd. Cadmium concentrations were chosen based on the results of previous studies [34,35], which evaluated hemp exposure to Cd in hydroponic systems. The experimental treatments were arranged in a randomized complete block design with four hemp varieties exposed to two levels of Cd with four replicates each.…”

“…For instance, Cd concentrations in the roots of C. sativa fiber variety Santhica 27 exposed to 20 µM Cd (2.25 mg•L −1 Cd) for one week averaged 2687 mg•kg −1 dw, while Cd concentrations in stems and leaves averaged 1243 mg•kg −1 dw and 717 mg•kg −1 dw, respectively [34]. Additionally, the C. sativa medicinal variety Purple Tiger exposed to 2.5 mg•L −1 Cd for 68 days had average Cd concentrations of 1982.6 mg•kg −1 dw in roots, 13.2 mg•kg −1 dw in leaves, 5.1 mg•kg −1 dw in stems, and 7.6 mg•kg −1 dw in flowers [35]. All varieties had increased concentrations of Cd in all plant tissues exposed to Cd in the nutrient solution, except in the floral tissues of T1.…”

“…Few studies have evaluated heavy metal accumulation in hemp flowers, with most research utilizing fiber hemp varieties to determine heavy metal uptake for phytoremediation purposes [16,17,19,34]. Due to the harmful effects of Cd and other heavy metals on human health, the U.S. hemp industry has attempted to implement standards regarding maximum allowable levels of metals in C. sativa consumer products, which vary by state [35]. As hemp flowers are increasingly grown for the medicinal market, determining Cd distribution among plant organs, as well as bioconcentration and root-to-shoot translocation factors, are of importance.…”

Cadmium Bioconcentration and Translocation Potential in Day Neutral and Photoperiod Sensitive Hemp Grown Hydroponically for the Medicinal Market

Industrial hemp (Cannabis sativa L.) can utilize and remediate soil strongly contaminated with Cu, As, Cd, and Pb by phytoattenuation

Rational synthesis of highly efficient dual–Z–scheme InVO4/FeVO4/Ex–CQDs–g–C3N4 heterojunction for photo(electro)chemical water splitting and pollutant removal applications