Martin W. Ritchie scite author profile

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Effects of Stand Density on Top Height Estimation for Ponderosa Pine

Ritchie¹,

Zhang²,

Hamilton³

2012

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Site index, estimated as a function of dominant-tree height and age, is often used as an expression of site quality. This expression is assumed to be effectively independent of stand density. Observation of dominant height at two different ponderosa pine levels-of-growing-stock studies revealed that top height stability with respect to stand density depends on the definition of the dominant height. Dominant height estimates calculated from a fixed number of trees per acre (ranging from 10 to 60 of the tallest trees per acre) were less affected by density than those calculated from a proportion (with the cutoff ranging from 95th to the 70th percentile) of the largest trees in the stand.

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Higher-order structure and epidemic dynamics in clustered networks

Ritchie

Berthouze

House

et al. 2014

Journal of Theoretical Biology

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Clustering is typically measured by the ratio of triangles to all triples regardless of whether open or closed. Generating clustered networks, and how clustering affects dynamics on networks, is reasonably well understood for certain classes of networks (Volz et al., 2011; Karrer and Newman, 2010), e.g. networks composed of lines and non-overlapping triangles. In this paper we show that it is possible to generate networks which, despite having the same degree distribution and equal clustering, exhibit different higher-order structure, specifically, overlapping triangles and other order-four (a closed network motif composed of four nodes) structures. To distinguish and quantify these additional structural features, we develop a new network metric capable of measuring order-four structure which, when used alongside traditional network metrics, allows us to more accurately describe a network׳s topology. Three network generation algorithms are considered: a modified configuration model and two rewiring algorithms. By generating homogeneous networks with equal clustering we study and quantify their structural differences, and using SIS (Susceptible-Infected-Susceptible) and SIR (Susceptible-Infected-Recovered) dynamics we investigate computationally how differences in higher-order structure impact on epidemic threshold, final epidemic or prevalence levels and time evolution of epidemics. Our results suggest that characterising and measuring higher-order network structure is needed to advance our understanding of the impact of network topology on dynamics unfolding on the networks.

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Martin W. Ritchie

Prediction of understory vegetation cover with airborne lidar in an interior ponderosa pine forest

Post-fire regeneration across a fire severity gradient in the southern Cascades

Probability of tree survival after wildfire in an interior pine forest of northern California: Effects of thinning and prescribed fire

Individual snag detection using neighborhood attribute filtered airborne lidar data

Snag longevity and surface fuel accumulation following post-fire logging in a ponderosa pine dominated forest

Ecological research at the Goosenest Adaptive Management Area in northeastern California

Effects of Stand Density on Top Height Estimation for Ponderosa Pine

Higher-order structure and epidemic dynamics in clustered networks

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