The influence of cadmium stress on the content of mineral nutrients and metal-binding proteins in arabidopsis halleri

We investigated the influence of cadmium stress on zinc hyperaccumulation, mineral nutrient uptake, and the content of metal-binding proteins in Arabidopsis halleri. The experiments were carried out using plants subjected to long-term cadmium exposure (40 days) in the concentrations of 45 and 225 μM Cd2+. Inductively coupled plasma-mass spectrometry, size exclusion chromatography coupled with plasma-mass spectrometry, and laser ablation inductively coupled plasma-mass spectrometry used for ablation of polyacylamide gels were employed to assess the content of investigated elements in plants as well as to identify metal-binding proteins. We found that A. halleri is able to translocate cadmium to the aerial parts in high amounts (translocation index >1). We showed that Zn content in plants decreased significantly with the increase of cadmium content in the growth medium. Different positive and negative correlations between Cd content and mineral nutrients were evidenced by our study. We identified more than ten low-molecular-weight (<100 kDa) Cd-binding proteins in Cd-treated plants. These proteins are unlikely to be phytochelatins or metallothioneins. We hypothesize that low-molecular-weight Cd-binding proteins can be involved in cadmium resistance in A. halleri

Disponibilidade dos metais pesados tóxicos cádmio, chumbo e cromo no solo e tecido foliar da soja adubada com diferentes fontes de NPK+Zn Availability of cadmium, lead and chromium toxic heavy metals in soil and soybean leaf tissue fertilized with different sources of NPK+Zn

Os fertilizantes utilizados para suprir micronutrientes podem apresentar metais pesados tóxicos em sua composição que podem proporcionar severas consequências ao meio ambiente. Plantas cultivadas na presença de determinadas concentrações de elementos tóxicos podem oferecer risco de contaminação, pois os acumulam em seus tecidos. Desse forma, neste trabalho objetivou-se avaliar a disponibilização dos metais pesados tóxicos Cd, Pb, e Cr para o solo e tecido foliar da cultura da soja, cultivada a campo e fertilizada com um formulado N:P2O5:K2O e diferentes fontes de Zn. O delineamento experimental utilizado foi o de blocos ao acaso, em esquema fatorial [(5+1)x2], com três repetições. Os tratamentos foram constituídos de cinco diferentes fertilizantes NPK+Zn (quatro fontes com Zn e uma sem Zn), um tratamento sem adubação e duas doses de adubação (uma vez e o seu dobro). Com base nos resultados obtidos foi concluído que a aplicação dos tratamentos disponibilizou Cd, Pb e Cr para as plantas de soja e para o solo do experimento nas duas doses de adubação utilizadas.<br>Fertilizers used to supply micronutrients may have toxic heavy metals in their composition, which can have severe consequences for the environment. Plants grown in the presence of certain concentrations of toxic elements may present a risk of contamination because the toxins accumulate in their tissues. This study aimed to measure the presence of the toxic heavy metals Cd, Pb and Cr in the soil and leaf tissue of field-grown soybean plants, fertilized with a formulated N:P2O5:K2O and different sources of Zn. The experimental design utilized randomized blocks in a factorial scheme [(5+1)x2], with three replications. The treatments consisted of five different fertilizers NPK + Zn (four sources with Zn and one without Zn), a treatment without fertilizer and two fertilizer levels (a single and double application). Based on obtained results it was concluded that the double application of the treatments released Cd, Pb and Cr into the soybean plants and experiment