Integral Projection Models (IPMs) use information on how an individual's state influences its vital rates - survival, growth and reproduction - to make population projections. IPMs are constructed from regression models predicting vital rates from state variables (e.g., size or age) and covariates (e.g., environment). By combining regressions of vital rates, an IPM provides mechanistic insight into emergent ecological patterns such as population dynamics, species geographic distributions, or life history strategies. Here, we review important resources for building IPMs and provide a comprehensive guide, with extensive R code, for their construction. IPMs can be applied to any stage-structured population; here we illustrate IPMs for a series...
These are the two demographic datasets used in the manuscript "Exploring population responses to env...
Temporal variability in the environment drives variation in vital rates, with consequences for popul...
1. Integral projection models (IPMs) are an important tool for studying the dynamics of populations ...
Integral Projection Models (IPMs) use information on how an individual's state influences its vital ...
This book is a “How To” guide for modeling population dynamics using Integral Projection Models (IPM...
Matrix projection models occupy a central role in population and conservation biology. Matrix models...
1. In order to understand how changes in individual performance (growth, survival or repro-duction) ...
Structured demographic models offer powerful methods for addressing important questions in ecology a...
Integral projection models (IPMs) are an important tool for studying the dynamics of populations str...
1. Structured population models are among the most widely used tools in ecology and evolution. Integ...
1. Structured demographic models offer powerful methods for addressing important questions in ecolog...
Replicated experiments at the level of the population are often not feasible for field systems. Desp...
In this article we illuminate the differences and similarities between matrix population models and ...
Integral projection models (IPMs) are a powerful and popular approach to modeling population dynamic...
The goal of IPMpack is to provide a suite of demographic tools based on Integral Projection Models (...
These are the two demographic datasets used in the manuscript "Exploring population responses to env...
Temporal variability in the environment drives variation in vital rates, with consequences for popul...
1. Integral projection models (IPMs) are an important tool for studying the dynamics of populations ...
Integral Projection Models (IPMs) use information on how an individual's state influences its vital ...
This book is a “How To” guide for modeling population dynamics using Integral Projection Models (IPM...
Matrix projection models occupy a central role in population and conservation biology. Matrix models...
1. In order to understand how changes in individual performance (growth, survival or repro-duction) ...
Structured demographic models offer powerful methods for addressing important questions in ecology a...
Integral projection models (IPMs) are an important tool for studying the dynamics of populations str...
1. Structured population models are among the most widely used tools in ecology and evolution. Integ...
1. Structured demographic models offer powerful methods for addressing important questions in ecolog...
Replicated experiments at the level of the population are often not feasible for field systems. Desp...
In this article we illuminate the differences and similarities between matrix population models and ...
Integral projection models (IPMs) are a powerful and popular approach to modeling population dynamic...
The goal of IPMpack is to provide a suite of demographic tools based on Integral Projection Models (...
These are the two demographic datasets used in the manuscript "Exploring population responses to env...
Temporal variability in the environment drives variation in vital rates, with consequences for popul...
1. Integral projection models (IPMs) are an important tool for studying the dynamics of populations ...