مشروع البحث: Response of some invasive weeds to edaphic variables and heavy metals
| dc.contributor.advisor | أ.د. ممدوح سراج | |
| dc.contributor.advisor | أ.د. عبد الحميد خضر | |
| dc.contributor.advisor | د. ريهام فؤاد الباروجي | |
| dc.date.accessioned | 2024-12-11T09:14:13Z | |
| dc.date.available | 2024-12-11T09:14:13Z | |
| dc.description | Invasive alien species have drawn attention in the field of ecology ever since Elton published the ecology of invasions by animals and plants (Elton, 1958). The definition of an invasive species is the movement of non-native species from their original habitat to a new location, where they colonize, spread, and endanger the local economy, environment, and ecosystem health (Christian, 2001; Vitousek et al., 1996; Falk-Petersen et al., 2006; Shackleton et al., 2020). By modifying the structure and functioning of ecosystems and obstructing crucial biological interactions, invasive species pose a danger to the sustainability of the world's biodiversity and social economy (Traveset and Richardson, 2006; Levine et al., 2003; Mitchell et al., 2006; Cook et al., 2007; Horvitz et al., 2014). These invasions have also been seen as a significant factor in recent extinctions and a key driver of environmental change on a global scale (Thomas et al., 2004). Recent years have seen a significant increase in ecologists' interest in the study of plant invasions, which are a key component of invasive alien species (Huang and Asner, 2009; Dostál et al., 2013; Hess et al., 2019; Weidlich et al., 2020). The world's flora and fauna have been homogenized by bio-invasion, which has also impacted species composition, community organization, and biogeochemical cycles (Chakraborty, 2019). Moreover, ecosystems can be impacted by these biological invasions under a variety of bioclimatic situations. For the conservation of biodiversity over the long term, it is essential to comprehend how climate change affects species invasion (Hulme, 2017). According to comprehensive studies of the dispersion distribution of invasive species, climatic conditions are the primary environmental drivers of species distribution at the macro-scale (Dyderski et al., 2018; Lamsal et al., 2018; | |
| dc.description.abstract | Invasive alien species have drawn attention in the field of ecology ever since Elton published the ecology of invasions by animals and plants (Elton, 1958). The definition of an invasive species is the movement of non-native species from their original habitat to a new location, where they colonize, spread, and endanger the local economy, environment, and ecosystem health (Christian, 2001; Vitousek et al., 1996; Falk-Petersen et al., 2006; Shackleton et al., 2020). By modifying the structure and functioning of ecosystems and obstructing crucial biological interactions, invasive species pose a danger to the sustainability of the world's biodiversity and social economy (Traveset and Richardson, 2006; Levine et al., 2003; Mitchell et al., 2006; Cook et al., 2007; Horvitz et al., 2014). These invasions have also been seen as a significant factor in recent extinctions and a key driver of environmental change on a global scale (Thomas et al., 2004). Recent years have seen a significant increase in ecologists' interest in the study of plant invasions, which are a key component of invasive alien species (Huang and Asner, 2009; Dostál et al., 2013; Hess et al., 2019; Weidlich et al., 2020). The world's flora and fauna have been homogenized by bio-invasion, which has also impacted species composition, community organization, and biogeochemical cycles (Chakraborty, 2019). Moreover, ecosystems can be impacted by these biological invasions under a variety of bioclimatic situations. For the conservation of biodiversity over the long term, it is essential to comprehend how climate change affects species invasion (Hulme, 2017). According to comprehensive studies of the dispersion distribution of invasive species, climatic conditions are the primary environmental drivers of species distribution at the macro-scale (Dyderski et al., 2018; Lamsal et al., 2018; | |
| dc.identifier | 276 | |
| dc.identifier.uri | https://dspace.academy.edu.ly/handle/123456789/800 | |
| dc.subject | Response of some invasive weeds to edaphic variables and heavy metals | |
| dc.title | Response of some invasive weeds to edaphic variables and heavy metals | |
| dspace.entity.type | Project | |
| project.endDate | 2024 | |
| project.funder.name | علم النبات | |
| project.investigator | حنان سعيد الاجراس | |
| project.startDate | 2023 |