Search Course Outline
7 course outlines found
1
BIOSCI 734
: Terrestrial Plant Ecology2023 Semester Two (1235)
Plants form the autotrophic basis of terrestrial food chains and their distribution, diversity and abundance is a critical determinant of ecosystem functioning. Topics covered include both plant population ecology – including population growth and structure, seed and seedling dynamics, and life history strategies – and community ecology – including vegetation structure, dynamics, and species interactions. Methods to survey, analyse, and model plant populations and communities will also be discussed.
No pre-requisites or restrictions
2
BIOSCI 734
: Terrestrial Plant Ecology2022 Semester Two (1225)
Plants form the autotrophic basis of terrestrial food chains and their distribution, diversity and abundance is a critical determinant of ecosystem functioning. Topics covered include both plant population ecology – including population growth and structure, seed and seedling dynamics, and life history strategies – and community ecology – including vegetation structure, dynamics, and species interactions. Methods to survey, analyse, and model plant populations and communities will also be discussed.
No pre-requisites or restrictions
3
BIOSCI 734
: Terrestrial Plant Ecology2021 Semester Two (1215)
Plants form the autotrophic basis of terrestrial food chains and their distribution, diversity and abundance is a critical determinant of ecosystem functioning. Topics covered include both plant population ecology – including population growth and structure, seed and seedling dynamics, and life history strategies – and community ecology – including vegetation structure, dynamics, and species interactions. Methods to survey, analyse, and model plant populations and communities will also be discussed.
No pre-requisites or restrictions
4
BIOSCI 734
: Terrestrial Plant Ecology2020 Semester Two (1205)
Plants form the autotrophic basis of terrestrial food chains and their distribution, diversity and abundance is a critical determinant of ecosystem functioning. Topics covered include both plant population ecology – including population growth and structure, seed and seedling dynamics, and life history strategies – and community ecology – including vegetation structure, dynamics, and species interactions. Methods to survey, analyse, and model plant populations and communities will also be discussed. A sound understanding of BIOSCI 396 or equivalent is assumed.
No pre-requisites or restrictions
5
BIOSCI 734
: Terrestrial Plant Ecology2025 Semester Two (1255)
Plants form the autotrophic basis of terrestrial food chains and their distribution, diversity and abundance is a critical determinant of ecosystem functioning. Topics covered include both plant population ecology – including population growth and structure, seed and seedling dynamics, and life history strategies – and community ecology – including vegetation structure, dynamics, and species interactions. Methods to survey, analyse, and model plant populations and communities will also be discussed.
No pre-requisites or restrictions
Outline is not available yet
6
BIOSCI 734
: Terrestrial Plant Ecology2024 Semester Two (1245)
Plants form the autotrophic basis of terrestrial food chains and their distribution, diversity and abundance is a critical determinant of ecosystem functioning. Topics covered include both plant population ecology – including population growth and structure, seed and seedling dynamics, and life history strategies – and community ecology – including vegetation structure, dynamics, and species interactions. Methods to survey, analyse, and model plant populations and communities will also be discussed.
No pre-requisites or restrictions
Outline is not available yet
7
BIOSCI 734
: Terrestrial Plant Ecology2022 Semester One (1223)
Plants form the autotrophic basis of terrestrial food chains and their distribution, diversity and abundance is a critical determinant of ecosystem functioning. Topics covered include both plant population ecology – including population growth and structure, seed and seedling dynamics, and life history strategies – and community ecology – including vegetation structure, dynamics, and species interactions. Methods to survey, analyse, and model plant populations and communities will also be discussed.
No pre-requisites or restrictions
Outline is not available yet