Abstract
Mid-rotation fertilization presents an opportunity to increase the economic return of plantation forests in the southeastern United States (SEUS). For this reason, the Forest Productivity Cooperative established a series of mid-rotation fertilization trials in Pinus taeda L. plantations across the SEUS between 1984 and 1987. These trials identified site-specific responses to nitrogen (N) and phosphorus (P) fertilizers, resulting in increased stand production for 6–10 years after fertilization. There are successful volume response models that allow users to quantify the gain in stand productivity resulting from fertilization. However, all the current models depend on empirical relationships that are not bounded by biological response, meaning that greater fertilizer additions continue to create more volume gains, regardless of physiological limits. To address this shortcoming, we developed a bounded response model that evaluates relative volume response gain to fertilizer addition. Site index and relative spacing are included as model parameters to help provide realistic estimates. The model is useful for evaluating productivity gain in Pinus taeda stands that are fertilized with N and P in mid-rotation.
Highlights
Silvicultural practices are constantly changing in plantation forests [1]
This study aimed to develop a post mid-rotation fertilization volume response model for Pinus taeda stands across the southeastern United States (SEUS) that is biologically sound and approaches an asymptotic response to fertilization when accounting for differences in initial stand conditions
The dataset originated from the Regionwide 13 (RW13) trial of the Forest Productivity Cooperative (FPC) Figure 1
Summary
Forest growth and yield systems that are able to predict the effect of different silvicultural practices on stand growth are essential tools needed to guide operational decision-making [2]. Soil nutrient availability typically limits forest production [6,7], emphasizing the importance of ameliorating soil nutrient deficiencies in order to enhance forest productivity [8]. To overcome this limitation, the application of N and P for mid-rotation stands has become a regular practice to increase. Volume response models for fertilization are essential to describe forest stand dynamics and to guide decision making in mid-rotation stands [10]
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