http://dspace.univ-setif.dz:8888/jspui/handle/123456789/5422 2026-06-24T04:04:42Z http://dspace.univ-setif.dz:8888/jspui/handle/123456789/6674 Titre: Information and Communication Technology (ICT) : LICENCE BIOTECHNOLOGIE VEGETALE ET AMELIORATION Auteur(s): BARGHOUT, Nihad Résumé: This course is intended for third-year undergraduate students majoring in Plant Biotechnology and Plant Improvement, within the Department of Biotechnology, Faculty of Natural and Life Sciences, at Ferhat Abbas University Sétif 1. It is structured into five main chapters, each including an introductory phase, a learning process, and an assessment component through tutorials, designed to strengthen knowledge acquisition. At the end of this course, students will be able to: Identify, differentiate, and select the main documentary sources (books, journals, theses, dissertations) required for research work. Develop proficiency in using the National Online Documentation System (SNDL). Retrieve, organize, and synthesize information according to a specific research objective. Understand the principles, steps, and standards for writing a clear, well-structured scientific paper that meets academic requirements. Develop scientific communication skills through the preparation and presentation of oral or written reports, enabling the effective dissemination of research findings. Demonstrate awareness of the ethical and deontological dimensions of research and scientific writing, with an emphasis on academic integrity, plagiarism prevention, and honesty in the presentation of data and results. 2026-01-01T00:00:00Z http://dspace.univ-setif.dz:8888/jspui/handle/123456789/6668 Titre: Bioclimatology For the use of Bachelor's degree (L3) in Ecology and Environment Auteur(s): BELATTAR, Rima Résumé: Bioclimatology has emerged today as an essential discipline for understanding the complex relationships that unite climate and living organisms. At a time when climate change is disrupting ecological balances and threatening the sustainability of natural resources, this science occupies a strategic position in the analysis of interactions between atmospheric factors and biological systems. Unlike a purely descriptive approach to climate, bioclimatology focuses on how climatic parameters such as temperature, precipitation, humidity, solar radiation, or wind directly or indirectly influence the functioning, distribution, and adaptation of living organisms, whether plants, animals, or humans. This discipline lies at the intersection of several scientific fields, including meteorology, ecology, physiology, agronomy, and geography. It does not limit itself to the study of large-scale global climate trends but also addresses local and regional scales, where climate shapes the daily life of living beings and conditions their survival. For instance, in agriculture, bioclimatology helps determine the optimal distribution of crops, identify critical growth periods, and anticipate risks associated with droughts, frosts, or heatwaves. Similarly, in human health, it contributes to analyzing the impact of climate variations on the spread of certain diseases, on thermal comfort, and on the vulnerability of populations. Beyond its practical applications, bioclimatology also provides a fundamental perspective on how ecosystems are formed and transformed under the influence of climatic conditions. Desert zones, tropical forests, savannas, and polar regions are all expressions of the intimate relationship between climate and the biosphere. Bioclimatology in Algeria examines the interactions between climate and living organisms across a marked north–south gradient, ranging from the humid Mediterranean regions in the north to the arid Sahara in the south. This diversity shapes distinct ecosystems, including forests, steppes, and desert environments, each with specific plant and animal adaptations. However, global climate change is increasingly disrupting these systems, with rising temperatures, decreasing and irregular rainfall, and more frequent extreme events such as droughts and wildfires. These changes are accelerating desertification, degrading natural vegetation, and threatening biodiversity and agricultural productivity. As a result, understanding bioclimatic relationships is essential for developing effective adaptation strategies, such as sustainable water management, drought- resistant crops, and ecosystem conservation, to ensure environmental resilience in Algeria. In the current context marked by the acceleration of global warming, the study of bioclimatology takes on an even more crucial dimension. It no longer limits itself to scientific observation but is embedded in a forward-looking and applied approach: modeling future scenarios, anticipating ecological and socio-economic impacts, and proposing adaptation strategies. Bioclimatology has therefore become an indispensable tool to support ecological transition, ensure food security, and preserve biodiversity in a rapidly changing world. 2026-01-01T00:00:00Z