Getting the biggest birch for the bang: restoring and expanding upland birchwoods in the Scottish Highlands by managing red deer

Getting the biggest birch for the bang: restoring and expanding upland birchwoods in the Scottish Highlands by managing red deer

High deer populations threaten the conservation value of woodlands and grasslands, but predicting the success of deer culling, in terms of allowing vegetation to recover, is difficult. Numerical simulation modeling is one approach to gain insight into the outcomes of management scenarios. We develop...

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Veröffentlicht in:Ecology and evolution 2013-07, Vol.3 (7), p.1890-1901
Hauptverfasser: Tanentzap, Andrew J., Zou, James, Coomes, David A.
Format: Artikel
Sprache:eng
Schlagworte:
Afforestation
Animal populations
Bayesian analysis
Betula
Biodiversity
Birch trees
Browsing
Cervus elaphus
Computer simulation
Culling
Deer
disturbance
Environmental protection
evidence‐based conservation
Grasslands
Ground cover
Herbivores
herbivory
Highlands
Land management
Mathematical functions
Mathematical models
Model accuracy
modeling
Original Research
Regeneration
restoration
Seedlings
Seeds
Spatial data
Stochasticity
Trees
Vegetation
Wildlife management
Woodlands
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container_issue 7
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container_title Ecology and evolution
container_volume 3
creator Tanentzap, Andrew J.
Zou, James
Coomes, David A.
description High deer populations threaten the conservation value of woodlands and grasslands, but predicting the success of deer culling, in terms of allowing vegetation to recover, is difficult. Numerical simulation modeling is one approach to gain insight into the outcomes of management scenarios. We develop a spatially explicit model to predict the responses of Betula spp. to red deer (Cervus elaphus) and land management in the Scottish Highlands. Our model integrates a Bayesian stochastic stage‐based matrix model within the framework of a widely used individual‐based forest simulation model, using data collected along spatial and temporal gradients in deer browsing. By initializing our model with the historical spatial locations of trees, we find that densities of juvenile trees (3 m) height tiers over 30 years, but regeneration also requires suitable ground cover for seedling establishment. Densities of adult seed sources did not influence regeneration, nor did an active management scenario where we altered the spatial configuration of adults by creating “woodland islets”. Our results show that managers interested in maximizing tree regeneration cannot simply reduce deer densities but must also improve ground cover for seedling establishment, and the model we develop now enables managers to quantify explicitly how much both these factors need to be altered. More broadly, our findings emphasize the need for land managers to consider the impacts of large herbivores rather than their densities. Predicting the outcome of deer culling, aimed at improving habitat conservation value, is difficult. We develop the first spatially explicit simulation model to predict the functional responses of birch (Betula spp.) woodland to land management in the Scottish Highlands. Our results show that managers interested in maximizing tree regeneration must consider the impacts of large herbivores rather than their densities, in addition to improving ground cover for seedling establishm
doi_str_mv 10.1002/ece3.548
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We then test the relative importance of deer browsing, ground cover vegetation, and seed availability in facilitating landscape‐level birch regeneration using simulations in which we varied these three variables. We find that deer primarily control transitions of birch to taller (&gt;3 m) height tiers over 30 years, but regeneration also requires suitable ground cover for seedling establishment. Densities of adult seed sources did not influence regeneration, nor did an active management scenario where we altered the spatial configuration of adults by creating “woodland islets”. Our results show that managers interested in maximizing tree regeneration cannot simply reduce deer densities but must also improve ground cover for seedling establishment, and the model we develop now enables managers to quantify explicitly how much both these factors need to be altered. 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We then test the relative importance of deer browsing, ground cover vegetation, and seed availability in facilitating landscape‐level birch regeneration using simulations in which we varied these three variables. We find that deer primarily control transitions of birch to taller (&gt;3 m) height tiers over 30 years, but regeneration also requires suitable ground cover for seedling establishment. Densities of adult seed sources did not influence regeneration, nor did an active management scenario where we altered the spatial configuration of adults by creating “woodland islets”. Our results show that managers interested in maximizing tree regeneration cannot simply reduce deer densities but must also improve ground cover for seedling establishment, and the model we develop now enables managers to quantify explicitly how much both these factors need to be altered. 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subjects Afforestation
Animal populations
Bayesian analysis
Betula
Biodiversity
Birch trees
Browsing
Cervus elaphus
Computer simulation
Culling
Deer
disturbance
Environmental protection
evidence‐based conservation
Grasslands
Ground cover
Herbivores
herbivory
Highlands
Land management
Mathematical functions
Mathematical models
Model accuracy
modeling
Original Research
Regeneration
restoration
Seedlings
Seeds
Spatial data
Stochasticity
Trees
Vegetation
Wildlife management
Woodlands
title Getting the biggest birch for the bang: restoring and expanding upland birchwoods in the Scottish Highlands by managing red deer
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