Tropical Grazing Lands Communities and Constituent Species

1.1 Objective and scope These chapters are not intended as a treatise on range management of tropical grazing lands, nor on the agronomy of sown pastures and cultivated fodder crops, aspects of applied science that are only one stage above scientific farming and use of land. An attempt is made to pr...

Full description

Bibliographic Details
Main Author: Whyte, R.O.
Format: eBook
Language:English
Published: Dordrecht Springer Netherlands 1974, 1974
Edition:1st ed. 1974
Subjects:
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • 12.4 Root studies
  • 12.5 Seasonality in growth
  • 12.5.1 Seasonality in individual species
  • 12.6 Flowering, reproduction and environment
  • 12.7 Seed yield
  • 12.8 Genetical response to physiological stress
  • Addendum
  • 13 Bibliography
  • General
  • Africa south of the Sahara
  • America: South, Central, Caribbean
  • Asia: Monsoonal and equatorial
  • Australia and Pacific Islands
  • 14 Index
  • Subjects
  • Geographical names
  • Plant names
  • of Chapters
  • 1 Introduction
  • 1.1 Objective and scope
  • 1.2 Management of tropical grazing lands
  • 1.3 Semantics
  • 1.4 Succession and climax
  • 1.5 Socio-economic factors
  • 1.6 Ecosystems
  • 1.7 Wildlife in African ecosystems
  • 1.8 Coverage
  • 1.9 Contrasts between tropical and temperate latitudes
  • 2 Evolution of grass covers: Australia and Asia
  • 2.1 Technique of ecological/historical analysis
  • 2.2 Australia
  • 2.3 Eastern monsoon Asia
  • 2.4 Mainland and insular south-east Asia
  • 2.5 Western monsoon Asia
  • 3 Evolution of grass covers: Africa and America
  • 3.1 Africa south of the Sahara
  • 3.2 America: South, Central and Caribbean
  • 4 Surrey and Assessment of Resources
  • 4.1 The integrated or holistic approach
  • 4.2 Significance of climate
  • 4.3 Aerial photography
  • 4.4 United Nations Programmes
  • 4.5 The approach of the plant sociologist
  • 4.6 Review of international literature
  • 4.7 Range condition analysis
  • 4.8 Grassland Survey of India
  • 4.9 IEMVT, Maisons Alfort, France
  • 4.10 Assessment in terms of livestock production
  • 5 Synecology and Succession
  • 5.1 Percentage of land under extensive and intensive use
  • 5.2 Grass covers in forest climaxes
  • 5.3 Authenticity of indigenous species
  • 5.4 Relative aggression
  • 5.5 Relative place in succession
  • 5.6 The pantropical ubiquitaries
  • 5.7 Indicator value
  • 5.8 Types of grass covers
  • 5.9 Succession in time and place
  • 5.10 America: Caribbean Islands: Succession on abandoned cultivated land
  • 6 Ecological Management of Natural Resources
  • 6.1 Science and practice of management
  • 6.2 Levels of production
  • 6.3 Management on basis of condition analysis
  • 6.4 The ecological component in range management
  • 6.5 Prevention of progression to forest
  • 6.6 Forestry working plan
  • 6.7 Shrubs and trees in tropical grazing lands
  • 6.8 The sylvo-pastoral system
  • 7 Addition of Legumes to Sward
  • 8 Replacement of Natural Covers
  • 8.1 Small proportion of total area
  • 8.2 Human sociological distinctions
  • 8.3 Changed conditions of soil and habitat
  • 8.4 Tailoring species for cultivation
  • 9 The Gramineae
  • 9.1 Importance
  • 9.2 Origin
  • 9.3 Taxonomy
  • 9.4 Speciation
  • 9.5 Taxonomic geography
  • 9.6 Contributions to taxonomic geography
  • 9.7 C. A. B. Bibliographies
  • 10 The Leguminosae
  • 10.1 Origin
  • 10.2 Taxonomic geography
  • 10.3 Legume/Rhizobium symbiosis
  • 10.4 Fixation and transfer of nitrogen
  • 10.5 Interest outside Australia
  • 10.6 Research in Australia
  • 10.7 C. A. B. Bibliographies
  • 11 Genetic Evolution and Resources
  • 11.1 Centres of origin
  • 11.2 Reconciliation of species taxonomy and variability
  • 11.3 Significance and use of variability
  • 11.4 The Dichanthium complex
  • 11.5 Reproduction and variability in species
  • 11.6 Genetic resources
  • 12 Plants and Environment
  • 12.1 Autecology
  • 12.2 Potential production and energy conversion
  • 12.3 Photosynthesis