Abstract
Experiments were conducted to determine two pieces of information essential to identify practices necessary to ensure tapping trees for birch sap collection is both sustainable and profitable—the selection of the time to initiate tapping birch trees to obtain maximum yields, and the volume of nonconductive wood (NCW) associated with taphole wounds in birch trees. The yields obtained from various timing treatments varied between sapflow seasons, but indicate that using test tapholes to choose the appropriate time to initiate tapping is likely to result in optimum yields from birch trees. The volume of NCW associated with taphole wounds in birch trees was highly variable and generally quite large, averaging 220 times the volume of the taphole drilled, and requiring relatively high radial growth rates to maintain NCW at sustainable levels over the long-term. However, more conservative tapping practices, including reduced taphole depth and increased dropline length, as well as thinning and other stand management practices, can be used to reduce the minimum growth rates required. Producers can use this information to ensure that they use tapping practices that will result in sustainable outcomes and obtain the maximum possible sap yields from their trees.
Highlights
The practice of tapping birch trees and collecting sap has been ongoing for millennia across the world [2], there remain some critical data needed in order to make science-based decisions about the production practices required to optimize yields and ensure sustainable outcomes are achieved in the long-term
The end of the maple season is a practical time for maple producers engaged in birch sap collection to tap birch trees, as it enables a full transition from one practice to another, without an overlap in need for equipment or personnel
The results of this study indicate that test tapholes can be a reliable indicator that producers can use to determine the appropriate time to tap birch trees to obtain
Summary
Birch producers rely on a wide variety of informal techniques and indicators to determine when trees should be tapped, including tapping based on the rate of sap flow from test trees, or tapping when puddles first appear in the woods [1]. None of these methods has been investigated or demonstrated to effectively predict a time to tap birch trees that results in optimum sap yields. The first objective of this study was to determine the optimum timing for tapping birch trees to achieve maximum yields
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