TY  - BOOK
AU  - Polle, Andrea||Rennenberg, Heinz
TI  - Physiological Responses to Abiotic and Biotic Stress in Forest Trees
KW  - pure stands||n/a||ion relation||Heterobasidion annosum||salicylic acid||antioxidant enzymes||antioxidant activity||Luquasorb||intrinsic water-use efficiency||Greece||Pinus koraiensis Sieb. et Zucc.||ion homeostasis||photosynthesis||Pinus massoniana||Stockosorb||water relations||Norway spruce||rubber tree||hydrophilic polymers||drought stress||ion relationships||Carpinus betulus||tree rings||N nutrition||disturbance||Populus simonii Carr. (poplar)||infection||subcellular localization||basal area increment||mixed stands||photosynthetic responses||Aleppo pine||water potential||elevation gradient||living cell||physiological response||antioxidant enzyme activity||ion contents||signal network||expression||soil N||GA-signaling pathway||differentially expressed genes||Ca2+ signal||climate||ecophysiology||Robinia pseudoacacia L.||Heterobasidion parviporum||mid-term||plant tolerance||canopy conductance||DELLA||tapping panel dryness||osmotic adjustment substances||abiotic stress||wood formation||malondialdehyde||salinity treatments||organic osmolytes||bamboo forest||non-structural carbohydrate||Abies alba Mill.||tree||salt stress||Populus euphratica||proline||nutrition||Carpinus turczaninowii||plasma membrane Ca2+ channels||gene regulation||pathogen||TCP||forest type||functional analysis||Fraxinus mandshurica Rupr.||long-term drought||defense response||cold stress||silicon fertilization||gas exchange||Fagus sylvatica L.||glutaredoxin||water availability||24-epiBL application||Konjac glucomannan||leaf properties||reactive oxygen species||sap flow||?13C||salinity||morphological indices||chloroplast ultrastructure||Moso Bamboo (Phyllostachys edulis)||drought||soluble sugar||molecular cloning||starch||growth
UR  - https://mdpi.com/books/pdfview/book/1635
ER  -