about
Evaluating general allometric models: interspecific and intraspecific data tell different stories due to interspecific variation in stem tissue density and leaf size.Experimental test for adaptive differentiation of ginseng populations reveals complex response to temperature.Leaf longevity as a normalization constant in allometric predictions of plant production.The spatial structure of the physical environment.Optimal photosynthetic use of light by tropical tree crowns achieved by adjustment of individual leaf angles and nitrogen content.Fundamental trade-offs generating the worldwide leaf economics spectrum.Responses to moisture stress in male and female plants of Rumex acetosella L. (Polygonaceae).Net photosynthetic recovery in subarctic lichens with contrasting water relations.Hostplant, larval age, and feeding behavior influence midgut pH in the gypsy moth (Lymantria dispar).Complementary crops and landscape features sustain wild bee communities.Partitioning the transplant site effect in reciprocal transplant experiments with Impatiens capensis and Impatiens pallida.Ecological trends in lichen photosynthesis.The sampling characteristics of electivity indices.Foliage quality changes during canopy development of some northern hardwood trees.Shade adaptation and shade tolerance in saplings of three Acer species from eastern North AmericaTHE EFFECTS OF INDIVIDUAL VARIATION IN PHYSIOLOGICAL AND MORPHOLOGICAL TRAITS ON THE REPRODUCTIVE CAPACITY OF THE COMMON COCKLEBUR, XANTHIUM STRUMARIUM LThe effects of climatic pattern on lichen productivity: Cetraria cucullata (Bell.) Ach. in the arctic tundra of northern AlaskaSimilarities and differences in intrapopulation trait correlations of co-occurring tree species: consistent water-use relationships amid widely different correlation patternsFunctional ecology of congeneric variation in the leaf economics spectrum
P50
Q31024246-3C9446A0-1ED6-432C-8D4D-8E25030B226CQ34343433-7C35CD42-5A7C-4141-B1F4-BF13C130A66FQ35061371-5CA76F57-EBB7-4566-BA21-8F1FD017A772Q36313250-9AD9AA59-9727-41A2-B138-54AB66227063Q39364926-59860EBF-D383-4350-97C9-06EC8254F01CQ39458429-43DEF9CF-DCD2-4E4B-829D-DA8B427D5F37Q39632330-8D796CCE-B894-41AB-8702-7FAC4D1AD715Q41332440-10F43551-3DCA-46DE-AA29-95374BC15B02Q47676528-EE6E6E11-D364-45C3-8B96-191C10A8CB99Q51150228-2AC3BD2D-44D8-4480-8BA5-26250B4867EEQ51197846-D20CCE24-E86C-4F43-8F82-5A5DCC9652C3Q51221268-66B13F94-3CE0-4FF6-B495-4068E15DCF81Q52726347-265B8C97-D864-4737-95E9-D1D69D1245CCQ52865901-CF5A4F10-EB6D-47EC-9B3E-F9A739567FD3Q87587997-CF569FEA-FF56-4CAE-B94E-8508890017B6Q88178708-94469E02-5F8F-4EF9-99C2-7F6C920A0581Q89576031-B3A34DAA-F8F5-47DC-BE28-EF331CE40C83Q91449110-AE97DB32-B8AE-498F-97CA-E96D8C9AF015Q92538843-040E6A2D-C005-4B6D-B5FC-355D85F3D2B3
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Martin J Lechowicz
@ast
Martin J Lechowicz
@en
Martin J Lechowicz
@es
Martin J Lechowicz
@nl
type
label
Martin J Lechowicz
@ast
Martin J Lechowicz
@en
Martin J Lechowicz
@es
Martin J Lechowicz
@nl
prefLabel
Martin J Lechowicz
@ast
Martin J Lechowicz
@en
Martin J Lechowicz
@es
Martin J Lechowicz
@nl
P106
P31
P496
0000-0003-2562-7136