Sustainable development is an effort to balance social progress with environmental equilibrium and economic growth. Young people affected by forced displacement are particularly vulnerable to the economic, environmental and social challenges of their surroundings. Using a framework that centres sustainable development on these three interconnected pillars, this article explores how the economic and environmental contexts in Lebanon impact adolescents’ and youth social development, drawing on qualitative data from adolescents in refugee and host community settings. The article highlights that adolescents face economic challenges because of the national economic crisis, exacerbated by COVID-19 lockdowns and service closures, poor labour market opportunities for youth-and for refugees in particular-and rising living costs. The environmental challenges facing adolescents include inadequate shelter (especially in collective shelters and informal tented shelters) and inadequate water, sanitation and hygiene (WASH) facilities. These economic and environmental conditions in turn influence adolescents’ social capabilities such as their physical and mental health, and voice and agency. The article concludes by highlighting the need for a more integrated approach to sustainable development that will allow both present and future generations in Lebanon to meet their own needs and live empowered lives. It outlines measures that could help achieve this approach, including: creating policies and programmes that promote investment in technical and soft skills-building to equip young people with the skills they need to take up jobs within the green economy; investing in adolescent-friendly social protection with linkages to environmental projects; and improved shelter, health and WASH facilities, particularly in response to the ongoing and future impacts of climate change.
Marine biotoxins are naturally existing chemicals produced by toxic algae and can accumulate in marine biota. When consumed with seafood, these phycotoxins can cause human intoxication with symptoms varying from barely-noticed illness to death depending on the type of toxin and its concentration. Recently, the occurrence of marine biotoxins has been given special attention in the Mediterranean as it increased in frequency and severity due to anthropogenic pressures and climate change. Up to our knowledge, no previous study reported the presence of lipophilic toxins (LTs) and cyclic imines (CIs) in marine biota in Lebanon. Hence, this study reports LTs and CIs in marine organisms: one gastropod (Phorcus turbinatus), two bivalves (Spondylus spinosus and Patella rustica complex) and one fish species (Siganus rivulatus), collected from various Lebanese coastal areas. The results show values below the limit of detection (LOD) for okadaic acid, dinophysistoxin-1 and 2, pectenotoxin-1 and 2, yessotoxins, azaspiracids and saxitoxins. The spiny oyster (S. spinosus) showed the highest levels of domoic acid (DA; 3.88 mg kg(-1)), gymnodimine (GYM-B) and spirolide (SPX) (102.9 and 15.07 ?g kg(-1), respectively) in congruence with the occurrence of high abundance of Pseudo-nitzchia spp., Gymnodinium spp., and Alexandrium spp. DA levels were below the European Union (EU) regulatory limit, but higher than the Lowest Observed Adverse Effect Level (0.9 ?g g(-1)) for neurotoxicity in humans and lower than the Acute Reference Dose (30 ?g kg(-1) bw) both set by the European Food Safety Authority (EFSA, 2009). Based on these findings, it is unlikely that a health risk exists due to the exposure to these toxins through seafood consumption in Lebanon. Despite this fact, the chronic toxicity of DA, GYMs and SPXs remains unclear and the effect of the repetitive consumption of contaminated seafood needs to be more investigated.
