Volltextsuche nutzen
- versandkostenfrei ab € 30,–
- 11x in Wien, NÖ und Salzburg
- 6 Mio. Bücher
- facultas
- Detailansicht
Growth and Defence in Plants
Resource Allocation at Multiple Scales
Hardcover
219,99€
inkl. gesetzl. MwSt.
Herstellung bei AnforderungVersandkostenfreibestellen in Österreich
Deutschland: € 10,00
EU & Schweiz: € 20,00
EU & Schweiz: € 20,00
In den Warenkorb
Click & Collect
Artikel online bestellen und in der Filiale abholen.
Derzeit in keiner facultas Filiale lagernd. Jetzt online bestellen!Artikel online bestellen und in der Filiale abholen.
Artikel in den Warenkorb legen, zur Kassa gehen und Wunschfiliale auswählen. Lieferung abholen und bequem vor Ort bezahlen.
Auf die Merkliste
Veröffentlicht 2012, von R. Matyssek, Hans Schnyder, Wolfgang Oßwald, Dieter Ernst, Jean Charles Munch, Hans Pretzsch bei Springer Berlin
ISBN: 978-3-642-30644-0
Auflage: 1. Auflage
Reihe: Ecological Studies
XXVI, 474 Seiten
XXVI, 474 p.
23.5 cm x 15.5 cm
Plants use resources, i.e. carbon, nutrients, water and energy, either for growth or to defend themselves from biotic and abiotic stresses. This volume provides a timely understanding of resource allocation and its regulation in plants, linking the molecular with biochemical and physiological-level processes. Ecological scenarios covered include competitors, pathogens, herbivores, ...
Beschreibung
Plants use resources, i.e. carbon, nutrients, water and energy, either for growth or to defend themselves from biotic and abiotic stresses. This volume provides a timely understanding of resource allocation and its regulation in plants, linking the molecular with biochemical and physiological-level processes. Ecological scenarios covered include competitors, pathogens, herbivores, mycorrhizae, soil microorganisms, carbon dioxide/ozone regimes, nitrogen and light availabilities. The validity of the “Growth-Differentiation Balance Hypothesis” is examined and novel theoretical concepts and approaches to modelling plant resource allocation are discussed. The results presented can be applied in plant breeding and engineering, as well as in resource-efficient stand management in agriculture and forestry.
Plants use resources, i.e. carbon, nutrients, water and energy, either for growth or to defend themselves from biotic and abiotic stresses. This volume provides a timely understanding of resource allocation and its regulation in plants, linking the molecular with biochemical and physiological-level processes. Ecological scenarios covered include competitors, pathogens, herbivores, mycorrhizae, soil microorganisms, carbon dioxide/ozone regimes, nitrogen and light availabilities. The validity of the “Growth-Differentiation Balance Hypothesis” is examined and novel theoretical concepts and approaches to modelling plant resource allocation are discussed. The results presented can be applied in plant breeding and engineering, as well as in resource-efficient stand management in agriculture and forestry.