General and population ecology
(objectives)
Students who successfully complete this course will be able to: • understand and explain the ecological processes that govern the functioning of complex environmental systems • interpret the mechanisms that determine the distribution, abundance and relationships with the biotic and abiotic environment of organisms • understand the multidisciplinary, interdisciplinary and integrative nature of the topics covered. • use evolutionary theories to address research questions on the causes of global change. • apply critical reading of scientific literature and independently investigate ecological issues, using the literature. • dealing with complex and multi-scalar disciplines and problems, and with the variety of investigation methods inherent to them, to formulate solid and evidence-based scientific questions.
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Code
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118398 |
Language
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ITA |
Type of certificate
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Profit certificate
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Credits
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9
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Scientific Disciplinary Sector Code
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BIO/07
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Contact Hours
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48
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Exercise Hours
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24
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Type of Activity
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Core compulsory activities
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Teacher
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CANESTRELLI Daniele
(syllabus)
General Ecology - The historical development of ecology; Ecology and its domain; Current state of ecological research in Italy. Ecology of the interactions between organisms and the physical environment: Conditions; Spatial and temporal variations; Adaptations in response to variations in environmental conditions; Limiting factors; Tolerance ranges; Environmental optima; Biological rhythms - climatic factors; Classification of climates; Phytogeographic zonation; Hints of paleoclimatology; Soil (solid, fluid and gaseous phase); Elements of paedogenesis; Soil classification; humus; Biological soil activity. Evolutionary Ecology - Genetic analysis of populations; Hardy-Weinberg's law; Genetic variability; Evolutionary forces (mutation, selection, gene flow, genetic drift); inbreeding; Wahlund effect; Balanced polymorphisms; Linkage disequilibrium; supergenes; Genetic divergence; Species concept; Reproductive isolation mechanisms; Speciation mechanisms; Hybrid zones and reinforcement; Sibling species; Biodiversity at the genetic level. Population ecology - Demography and dynamics: population structure and growth; Demographic parameters; Demographic tables; Intrinsic growth rate - numerical regulation of populations; Density dependent and independent factors; Exponential growth; environmental carrying capacity - logistic growth curve. Interspecific interactions: symbiosis; commensalism; inquilinism; antibiosis; parasitism; adaptations to parasitic life; coevolution; predation - adaptations to predation; cryptism; mimicry; intraspecific competition; interspecific competition; ecological niche; Principle of competitive exclusion; character displacement; r and K selection.
(reference books)
L. Bullini, S. Pignatti, A Virzo De Santo, "Ecologia Generale". UTET E. Odum, "Basi di Ecologia", Piccin Editore. M. L. Cain, W. D. Bowman, S. D. Hacker, “Ecologia”. Piccin Editore. Krebs "Ecology", Neebo Ed.
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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Teacher
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NASCETTI Giuseppe
(syllabus)
General Ecology - The historical development of ecology; Ecology and its domain; Current state of ecological research in Italy. Ecology of the interactions between organisms and the physical environment: Conditions; Spatial and temporal variations; Adaptations in response to variations in environmental conditions; Limiting factors; Tolerance ranges; Environmental optima; Biological rhythms - climatic factors; Classification of climates; Phytogeographic zonation; Hints of paleoclimatology; Soil (solid, fluid and gaseous phase); Elements of paedogenesis; Soil classification; humus; Biological soil activity. Evolutionary Ecology - Genetic analysis of populations; Hardy-Weinberg's law; Genetic variability; Evolutionary forces (mutation, selection, gene flow, genetic drift); inbreeding; Wahlund effect; Balanced polymorphisms; Linkage disequilibrium; supergenes; Genetic divergence; Species concept; Reproductive isolation mechanisms; Speciation mechanisms; Hybrid zones and reinforcement; Sibling species; Biodiversity at the genetic level. Population ecology - Demography and dynamics: population structure and growth; Demographic parameters; Demographic tables; Intrinsic growth rate - numerical regulation of populations; Density dependent and independent factors; Exponential growth; environmental carrying capacity - logistic growth curve. Interspecific interactions: symbiosis; commensalism; inquilinism; antibiosis; parasitism; adaptations to parasitic life; coevolution; predation - adaptations to predation; cryptism; mimicry; intraspecific competition; interspecific competition; ecological niche; Principle of competitive exclusion; character displacement; r and K selection.
(reference books)
L. Bullini, S. Pignatti, A Virzo De Santo, "Ecologia Generale". UTET E. Odum, "Basi di Ecologia", Piccin Editore. M. L. Cain, W. D. Bowman, S. D. Hacker, “Ecologia”. Piccin Editore. Krebs "Ecology", Neebo Ed.
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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