Abstract
Onopordum alexandrinum is a near-endemic to Egypt and neighboring countries. Its habitats are designated as priority sites for conservation in the south and east Mediterranean regions. We hypothesize that variation in morphological, reproductive, and molecular traits could provide a survival strategy that allows the species to occupy landscapes including anthropogenic habitats (barley and abandoned fields) and natural habitats (sand dunes and desert plateau) with different soil resources along the western Mediterranean coast of Egypt. The results indicated that plant functional traits associated with high rates of resource acquisition and growth (e.g., high values of vegetative height and specific leaf area, and low values of leaf dry matter content) occurred in populations located in abandoned fields with high soil resources. The genetic diversity analyses indicated similarity in genetic diversity of the present populations of O. alexandrinum in barley and abandoned fields with those of sand dunes. However, the genetic structures of these populations were different from those of natural desert plateau, which suggests reduced rates of gene flow. In this framework, it is essential to monitor and reduce the anthropogenic activity which will not only support the conservation of genetic diversity within populations but will also help ensure the resilience of O. alexandrinum in the face of environmental and climatic changes.
Highlights
Understanding the patterns and processes associated with changes in functional and genetic traits is one of the key goals in the preservation and conservation of rare and threatened species [1]
Understanding environmental forces responsible for changes in functional traits and genetic diversity is important in species conservation
Our results indicated that O. alexandrinum is characterized by intraspecific phenotypic variation in morphological traits, which is consistent with previous studies
Summary
Understanding the patterns and processes associated with changes in functional and genetic traits is one of the key goals in the preservation and conservation of rare and threatened species [1]. Such forces can influence a population’s performance directly by changing resource availability or indirectly by changing the growth rate and reproductive effort of plants, which are determined by an interaction between resources and conditions and the functional and genetic traits of plants [12,13,14] Variations in these traits are the reflection of evolutionary and environmental drivers that operate at different spatial and temporal scales and are difficult to differentiate within and among plant populations, especially in endangered and threatened species because of the low number of individuals [5,13,15,16].
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