The surge of research on marine litter is generating important information on its inputs, distribution and impacts, but data on the nature and origin of the litter remain scattered. Here, we harmonize worldwide litter-type inventories across seven major aquatic environments and find that a set of plastic items from take-out food and beverages largely dominates global litter, followed by those resulting from fishing activities. Compositional differences between environments point to a trend for litter to be trapped in nearshore areas so that land-sourced plastic is released to the open ocean, predominantly as small plastic fragments. The world differences in the composition of the nearshore litter sink reflected socioeconomic drivers, with a reduced relative weight of single-use items in high-income countries. Overall, this study helps inform urgently needed actions to manage the production, use and fate of the most polluting human-made items on our planet, but the challenge remains substantial.
Fungal growth in fruits may cause spoilage and result in a reduction of their quality and quantity. The aim of the current study was to investigate the antifungal activity and the metabolism of thymol and carvacrol by Colletotrichum acutatum and Botryodiplodia theobromae. The results showed that both compounds provided relatively good control against these plant pathogenic fungi. Mycelial growth of C. acutatum and B. theobromae was inhibited at 50 µg/mL and above. At 150 µg/mL, thymol and carvacrol inhibited the radial growth of fungi completely and this effect remained for 240 h. Furthermore, thymol and carvacrol were metabolized by the plant pathogenic fungi in low proportion to several compounds, including thymoquinone, thymohydroquinone, thymyl-and carvacryl acetate, thymyland carvacryl methyl ether. The transformations affect the structural requirements of thymol and carvacrol related to their antimicrobial activity and mode of action. The relatively high antifungal activity of thymol and carvacrol against C. acutatum and B. theobromae and the low levels of microbial transformation indicate that both compounds could be an alternative to traditional chemical fungicides for control of pre-and postharvest phytopathogenic fungi on fruits or vegetables. Key words: Alternative control, arylpropanoids, fungal detoxification, metabolic pathways, thymoquinone.
RESUMEN Timol y carvacrol: biotransformación y actividad antifúngica contra los hongos fitopatogénicos Colletotrichum acutatum y
Botryodiplodia theobromaeEl crecimiento de los hongos en frutas puede causar el deterioro de los alimentos y resultar en una reducción de la calidad y la productividad. El objetivo del presente estudio fue investigar la actividad antifúngica, y el metabolismo de timol y carvacrol por Colletotrichum acutatum y Botryodiplodia theobromae. Los resultados muestran que ambos compuestos despliegan un relativo buen control contra los hongos fitopatogénicos; el crecimiento micelial de C. acutatum y B. theobromae se inhibió a concentraciones de 50 µg/mL y mayores. A 150 µg/mL, timol y carvacrol inhibieron el crecimiento radial de los hongos g/mL y mayores. A 150 µg/mL, timol y carvacrol inhibieron el crecimiento radial de los hongos µg/mL, timol y carvacrol inhibieron el crecimiento radial de los hongos completamente y este efecto permaneció durante 240 h. Además, los hongos fitopatogénicos metabolizaron timol y carvacrol a varios compuestos en una baja proporción, incluyendo timoquinona, timohidroquinona, timil-y carvacril acetato, timil-y carvacril metil eter, entre otros. Las transformaciones afectan los requerimientos estructurales del timol y carvacrol relacionados con su actividad antimicrobiana y modo de acción. La actividad antifúngica relativamente alta de timol y carvacrol contra C. acutatum and B. theobromae y los niveles de transformación microbiana bajos, indican que ambos compuestos pueden ser una alternativa a los fungicidas químicos tradicionales para el control de los hongos fitopatogénicos en pre-y poscosecha de fruta...
Hydrographic mesoscale structures in the Northwestern Alboran Sea show a high variability induced by a number of different factors. One of the most important is the differences in atmospheric pressure over the Mediterranean basin when compared to the Gulf of Cádiz. This difference modulates the zonal wind field in the Alboran Sea and the intensity of the Atlantic inflow through the Strait of Gibraltar, also affecting the formation and extension of the Western Alboran Gyre (WAG). When westerly winds are dominant, lower atmospheric pressure in the Mediterranean enhances the inflow of Atlantic waters causing the Atlantic Jet to be located in the vicinity of the Spanish shore, creating a well-defined frontal zone in front of Estepona Cove. In this situation, the coastal upwelling is enhanced, leading to a minimum in sea surface temperature and a maximum of surface nutrient concentrations located in the coastal area. The vertical position of the chlorophyll maximum found in these circumstances appeared to be controlled by the nutrient availability. On the other hand, when easterly winds prevail, higher atmospheric pressure in the Mediterranean leads to a reduced inflow and the oceanographic and biological structures are clearly different. The Atlantic Jet moves southward flowing in a southeastern direction, changing the structure of the currents, resulting in an enhanced cyclonic circulation extending throughout the Northwestern Alboran Sea basin. These physical alterations also induce changes in the distribution of biogeochemical variables. Maximum nutrient and chlorophyll concentrations are located further off the coast in the central area of the newly created cyclonic gyre. During these easterlies periods coastal upwelling stops and the distribution of phytoplankton cells seems to be mainly controlled by physical processes such as advection of coastal waters to the open sea.
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