Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Part I Introduction
- Part II Historical background
- Part III Biogeography of taxa
- 7 Invasive plants of the Mediterranean Basin
- 8 Invasive vascular plants of California
- 9 Introduction of plants into the mediterranean-type climate area of Chile
- 10 Introduced plants of the fynbos biome of South Africa
- 11 Invasive plants of southern Australia
- 12 Life cycles of some Mediterranean invasive plants
- 13 Invasion processes as related to succession and disturbance
- 14 Is fire an agent favouring plant invasions?
- 15 Plant invasion and soil seed banks: control by water and nutrients
- 16 Invasion by annual brome grasses: a case study challenging the homoclime approach to invasions
- 17 Patterns of Pleistocene turnover, current distribution and speciation among Mediterranean mammals
- 18 Introduced mammals in California
- 19 Ecology of a successful invader: the European rabbit in central Chile
- 20 Mammals introduced to the mediterranean region of South Africa
- 21 Mammals introduced to southern Australia
- 22 Invasions and range modifications of birds in the Mediterranean Basin
- 23 Invasions in the mediterranean avifaunas of California and Chile
- 24 Birds introduced to the fynbos biome of South Africa
- 25 Species of introduced birds in mediterranean Australia
- Part IV Applied aspects of mediterranean invasions
- Part V Overview
- Index of scientific names
- Subject index
16 - Invasion by annual brome grasses: a case study challenging the homoclime approach to invasions
Published online by Cambridge University Press: 02 December 2009
- Frontmatter
- Contents
- List of contributors
- Preface
- Part I Introduction
- Part II Historical background
- Part III Biogeography of taxa
- 7 Invasive plants of the Mediterranean Basin
- 8 Invasive vascular plants of California
- 9 Introduction of plants into the mediterranean-type climate area of Chile
- 10 Introduced plants of the fynbos biome of South Africa
- 11 Invasive plants of southern Australia
- 12 Life cycles of some Mediterranean invasive plants
- 13 Invasion processes as related to succession and disturbance
- 14 Is fire an agent favouring plant invasions?
- 15 Plant invasion and soil seed banks: control by water and nutrients
- 16 Invasion by annual brome grasses: a case study challenging the homoclime approach to invasions
- 17 Patterns of Pleistocene turnover, current distribution and speciation among Mediterranean mammals
- 18 Introduced mammals in California
- 19 Ecology of a successful invader: the European rabbit in central Chile
- 20 Mammals introduced to the mediterranean region of South Africa
- 21 Mammals introduced to southern Australia
- 22 Invasions and range modifications of birds in the Mediterranean Basin
- 23 Invasions in the mediterranean avifaunas of California and Chile
- 24 Birds introduced to the fynbos biome of South Africa
- 25 Species of introduced birds in mediterranean Australia
- Part IV Applied aspects of mediterranean invasions
- Part V Overview
- Index of scientific names
- Subject index
Summary
The convergence of the biotas of the five regions of the world with a mediterranean-type climate was actively studied over a decade ago (di Castri & Mooney, 1973; Mooney, 1977; Cody & Mooney, 1978). Already at that time, the large interchange of plant species between the five regions was mentioned (di Castri & Mooney, 1973) but not much documented. The present volume aims to fill that gap. Such an enterprise gains support from the assumption that the success of invasions strongly depends upon the similarity of the source and reception areas in terms of climate, life forms and structure of the biota (Baker, 1986) and that, as a consequence, the five mediterranean-type regions constitute a rather specific network within which invasions are better analysed, understood and amenable to predictions than they would be using larger geographical units composed of several climatic types.
In this chapter, in addition to documenting the invasion patterns of a genus containing ecologically and economically important species, we want to challenge the above assumption. In fact, because of life form, phenology, plasticity or ecotypic differentiation, many species have distributions encompassing regions of several climatic types. For such species, only extremes in climate may prevent invasion. Moreover, climatic similarity is a condition neither sufficient nor necessary for an invasion to occur (as shown by the literature on biological control of insects and weeds, e.g. Harris, 1984).
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- Biogeography of Mediterranean Invasions , pp. 207 - 224Publisher: Cambridge University PressPrint publication year: 1991
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