Spatial heterogeneity is a characteristic of most natural ecosystems which is difficult to handle analytically, particularly in the absence of knowledge about the exogenous factors responsible for this heterogeneity. While classical methods for analysis of spatial point patterns usually require the hypothesis of homogeneity, we present a practical approach for partitioning heterogeneous vegetation plots into homogeneous subplots in simple cases of heterogeneity without drastically reducing the data. It is based on the detection of endogenous variations of the pattern using local density and secord-order local neighbour density functions that allow delineation of irregularly shaped subplots that could be considered as internally homogeneous....
We generalize Ripley’s K function to get a new function, M, to characterize the spatial structure of...
Models of relationships among forest inventory sampling efficiency and cluster plot configuration va...
<p>Spatial point patterns representing 6 possible vegetation distributions (from left to right and f...
[Departement_IRSTEA]DS [TR1_IRSTEA]51 - METHODO / MAGESTYCInternational audienceSpatial heterogeneit...
We describe a range of methods for the description and analysis of spatial point patterns in plant e...
Summary: 1. This article reviews the application of some summary statistics from current theory o...
Spatial pattern of trees in forests reveals how trees interact with each other and their environment...
The spatial structure of a forest stand is an important signature of forest dynamics. The local envi...
Ecologists and foresters are becoming increasingly aware of the importance of spatial information in...
The spatial patterns of the most abundant tree species on the Paracou experimental plots were all ch...
Vegetation heterogeneity biases second-order summary statistics, e.g., Ripley's <i>K</i>-function, a...
Understanding the ecological processes underlying the spatial distribution of trees is enabled by si...
This is the published version of an article published by the Ecological Society of America.Species p...
Spatial patterns reveal critical features at the individual and community levels. However, how to ev...
The spatial analysis of linear features (lines and curves) is a challenging and rarely attempted pro...
We generalize Ripley’s K function to get a new function, M, to characterize the spatial structure of...
Models of relationships among forest inventory sampling efficiency and cluster plot configuration va...
<p>Spatial point patterns representing 6 possible vegetation distributions (from left to right and f...
[Departement_IRSTEA]DS [TR1_IRSTEA]51 - METHODO / MAGESTYCInternational audienceSpatial heterogeneit...
We describe a range of methods for the description and analysis of spatial point patterns in plant e...
Summary: 1. This article reviews the application of some summary statistics from current theory o...
Spatial pattern of trees in forests reveals how trees interact with each other and their environment...
The spatial structure of a forest stand is an important signature of forest dynamics. The local envi...
Ecologists and foresters are becoming increasingly aware of the importance of spatial information in...
The spatial patterns of the most abundant tree species on the Paracou experimental plots were all ch...
Vegetation heterogeneity biases second-order summary statistics, e.g., Ripley's <i>K</i>-function, a...
Understanding the ecological processes underlying the spatial distribution of trees is enabled by si...
This is the published version of an article published by the Ecological Society of America.Species p...
Spatial patterns reveal critical features at the individual and community levels. However, how to ev...
The spatial analysis of linear features (lines and curves) is a challenging and rarely attempted pro...
We generalize Ripley’s K function to get a new function, M, to characterize the spatial structure of...
Models of relationships among forest inventory sampling efficiency and cluster plot configuration va...
<p>Spatial point patterns representing 6 possible vegetation distributions (from left to right and f...