Spatial patterns and competition of tree species in a Douglas-fir chronosequence on Vancouver Island

While the successional dynamics and large-scale structure of Douglas-fir forest in the Pacific Northwest region is well studied, the fine-scale spatial characteristics at the stand level are still poorly understood. Here we investigated the fine-scale spatial structure of forest on Vancouver Island, in order to understand how the three dominant species, Douglas-fir, western hemlock, and western redcedar, coexist and partition space along a chronosequence comprised of immature, mature, and old-growth stands. We quantified the changes in spatial distribution and association of the species along the chronosequence using the scale-dependent point pattern analyses pair-correlation function g(r) and Ripley's L-function. Evidence on intra- and inter-specific competition was also inferred from correlations between nearest-neighbor distances and tree size. Our results show that 1) the aggregation of Douglas-fir in old-growth was primarily caused by variation in local site characteristics, 2) only surviving hemlock were more regular than their pre-mortality patterns, a result consistent with strong intra-specific competition, 3) inter-specific competition declined rapidly with stand age due to spatial resource partitioning, and (4) tree death was spatially randomly distributed among larger overstory trees. The study highlights the importance of spatial heterogeneity for the long-term coexistence of shade-intolerant pioneer Douglas-fir and shade-tolerant western hemlock and western redcedar.

[1]  C. Welden,et al.  Competition and Abiotic Stress Among Trees and Shrubs in Northwest Colorado , 1988 .

[2]  Michael S. Rosenberg,et al.  Conceptual and Mathematical Relationships among Methods for Spatial Analysis , 2022 .

[3]  Malcolm P. North,et al.  Forest Stand Structure and Pattern of Old-Growth Western Hemlock/Douglas-Fir and Mixed-Conifer Forests , 2004, Forest Science.

[4]  Thomas T. Veblen,et al.  Tree spatial patterns and stand development along the pine-grassland ecotone in the Colorado Front Range , 1999 .

[5]  D. Urban,et al.  Spatial pattern of Quercus regeneration limitation and Acer rubrum invasion in a Piedmont forest , 2003 .

[6]  A. Wolf Fifty year record of change in tree spatial patterns within a mixed deciduous forest , 2005 .

[7]  Jerry F. Franklin,et al.  Canopy gaps in Douglas-fir forests of the Cascade Mountains , 1990 .

[8]  B. Hambly Fractals, random shapes, and point fields , 1994 .

[9]  P. Stoll,et al.  Pattern and process: competition causes regular spacing of individuals within plant populations , 2005 .

[10]  Trevor C. Bailey,et al.  Interactive Spatial Data Analysis , 1995 .

[11]  D. Sachs,et al.  Assessment of interspecific competition using relative height and distance indices in an age sequence of seral interior cedarhemlock forests in British Columbia , 2004 .

[12]  B. Ripley The Second-Order Analysis of Stationary Point Processes , 1976 .

[13]  Nearest-neighbour analysis and the prevelance of woody plant competition in South African savannas , 2004, Plant Ecology.

[14]  A. J. Pontin Competition and coexistence of species , 1982 .

[15]  K. Coates Tree recruitment in gaps of various size, clearcuts and undisturbed mixed forest of interior British Columbia, Canada , 2002 .

[16]  E. C. Pielou The Use of Plant-to-Neighbour Distances for the Detection of Competition , 1962 .

[17]  Lieven Nachtergale,et al.  Spatial methods for quantifying forest stand structure development: a comparison between nearest-neighbor indices and variogram analysis , 2003 .

[18]  D. Stoyan,et al.  Recent applications of point process methods in forestry statistics , 2000 .

[19]  C. Canham,et al.  A neighborhood analysis of canopy tree competition : effects of shading versus crowding , 2004 .

[20]  Richard P. Duncan,et al.  Density‐dependent effects on tree survival in an old‐growth Douglas fir forest , 2000 .

[21]  Thorsten Wiegand,et al.  Rings, circles, and null-models for point pattern analysis in ecology , 2004 .

[22]  N. C. Kenkel,et al.  Pattern of Self‐Thinning in Jack Pine: Testing the Random Mortality Hypothesis , 1988 .

[23]  P J Diggle,et al.  Second-order analysis of spatial clustering for inhomogeneous populations. , 1991, Biometrics.

[24]  Richard P. Duncan,et al.  COMPETITION AND THE COEXISTENCE OF SPECIES IN A MIXED PODOCARP STAND , 1991 .

[25]  Audrey Robert,et al.  A model to assess relationships between forest dynamics and spatial structure , 2003 .

[26]  E. D. Ford,et al.  Competition and stand structure in some even-aged plant monocultures , 1975 .

[27]  A. Mäkelä,et al.  A method for generating stand structures using Gibbs marked point process , 2002 .

[28]  Christine A. Ribic,et al.  Testing for life historical changes in spatial patterns of four tropical tree species. , 1986 .

[29]  E. C. Pielou Segregation and Symmetry in Two-Species Populations as Studied by Nearest- Neighbour Relationships , 1961 .

[30]  Jonathan Silvertown,et al.  Plant coexistence and the niche , 2004 .

[31]  D. Stoyan,et al.  Fractals, random shapes and point fields : methods of geometrical statistics , 1996 .

[32]  C. Welden,et al.  The Intensity of Competition Versus its Importance: An Overlooked Distinction and Some Implications , 1986, The Quarterly Review of Biology.

[33]  Florian Jeltsch,et al.  Do spatial effects play a role in the spatial distribution of desert-dwelling Acacia raddiana ? , 2000 .

[34]  K. Klinka,et al.  A field guide to site identification and interpretation for the Van-couver forest region , 1994 .

[35]  S. Hubbell,et al.  Spatial patterns in the distribution of tropical tree species. , 2000, Science.

[36]  Jerry F. Franklin,et al.  Thirty-six years of tree population change in an old-growth Pseudotsuga–Tsuga forest , 1988 .

[37]  Richard S. Miller Pattern and Process in Competition , 1967 .

[38]  Stephen P. Hubbell,et al.  Habitat associations of trees and shrubs in a 50‐ha neotropical forest plot , 2001 .

[39]  W. Keeton,et al.  DO REMNANT OLD‐GROWTH TREES ACCELERATE RATES OF SUCCESSION IN MATURE DOUGLAS‐FIR FORESTS? , 2005 .

[40]  Frank M. Schurr,et al.  Spatial pattern formation in semi-arid shrubland: a priori predicted versus observed pattern characteristics , 2004, Plant Ecology.

[41]  Glenn D. Sutherland,et al.  Canopy Gaps and the Landscape Mosaic in a Coastal Temperate Rain Forest , 1996 .

[42]  Wei Fang,et al.  Spatial analysis of an invasion front of Acer platanoides: dynamic inferences from static data , 2005 .

[43]  C. Prescott,et al.  Vertical fine root distributions of western redcedar, western hemlock, and salal in old-growth cedar-hemlock forests on northern Vancouver Island , 2002 .

[44]  D. Sachs,et al.  Assessment of interspecific competition using relative height and distance indices in an age sequence of seral interior cedar-hemlock forests , 2004 .

[45]  J. Plotkin,et al.  Species-area curves, spatial aggregation, and habitat specialization in tropical forests. , 2000, Journal of theoretical biology.

[46]  P. Jolliffe,et al.  Assessing processes of intraspecific competition within spatially heterogeneous black spruce stands , 1998 .

[47]  Frederik P. Agterberg,et al.  Interactive spatial data analysis , 1996 .

[48]  Jorge Mateu,et al.  The spatial pattern of a forest ecosystem , 1998 .

[49]  Jerry F. Franklin,et al.  Spatial Relationship of Biomass and Species Distribution in an Old-Growth Pseudotsuga-Tsuga Forest , 2004, Forest Science.

[50]  Pierre Legendre,et al.  SPECIES DIVERSITY PATTERNS DERIVED FROM SPECIES–AREA MODELS , 2002 .

[51]  Chris J. Peterson,et al.  An unexpected change in spatial pattern across 10 years in an aspen-white-pine forest , 1995 .

[52]  J. P. Kimmins,et al.  Factors limiting the early survivorship of Thuja plicata on northern Vancouver Island, British Columbia , 2003 .

[53]  P. Reich,et al.  Discordance in spatial patterns of white pine (Pinus strobus) size‐classes in a patchy near‐boreal forest , 2001 .

[54]  J. Bruno,et al.  Inclusion of facilitation into ecological theory , 2003 .

[55]  John A. Silander,et al.  Juvenile Tree Survivorship as a Component of Shade Tolerance , 1995 .

[56]  Ben Gurion,et al.  Do spatial effects play a role in the spatial distribution of desert-dwelling Acacia raddiana? , 2000 .