Towards causal predictions of site-level treatment effects for applied ecology
Towards causal predictions of site-level treatment effects for applied ecology
With limited land and resources available to implement conservation actions, efforts must be effectively targeted to individual places. This demands predictions of how individual sites respond to alternative interventions. Meta-learner algorithms for predicting individual level treatment effects (ITEs) have been pioneered in marketing and medicine, but they have not been tested in ecology. We present a first application of meta-learner algorithms to ecology by comparing the performance of algorithms popular in other disciplines (S-, T-, and X-Learners) across a broad set of sampling and modelling conditions that are common to ecological observational studies. We conducted 4,050 virtual studies that measure the effect of forest management on soil carbon. These varied in sampling approach and meta-learner algorithm. The X-Learner algorithm that adjusts for selection bias yields the most accurate predictions of ITEs. Our findings pave the way for ecologists to leverage machine learning techniques for more effective and targeted management of ecosystems in the future.
Jackson, Eleanor E.
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Snäll, Tord
f7473176-f608-445e-955b-ecadd47d2017
Gardner, Emma
3e2d4431-4356-4f85-998d-9e4d1b5094eb
Bullock, James M.
1905d5ee-f9cd-4752-b0aa-5ae5662b35e9
Spake, Becks
1cda8ad0-2ab2-45d9-a844-ec3d8be2786a
Jackson, Eleanor E.
af3413f2-3d18-408a-aee6-74964750f65c
Snäll, Tord
f7473176-f608-445e-955b-ecadd47d2017
Gardner, Emma
3e2d4431-4356-4f85-998d-9e4d1b5094eb
Bullock, James M.
1905d5ee-f9cd-4752-b0aa-5ae5662b35e9
Spake, Becks
1cda8ad0-2ab2-45d9-a844-ec3d8be2786a
[Unknown type: UNSPECIFIED]
Abstract
With limited land and resources available to implement conservation actions, efforts must be effectively targeted to individual places. This demands predictions of how individual sites respond to alternative interventions. Meta-learner algorithms for predicting individual level treatment effects (ITEs) have been pioneered in marketing and medicine, but they have not been tested in ecology. We present a first application of meta-learner algorithms to ecology by comparing the performance of algorithms popular in other disciplines (S-, T-, and X-Learners) across a broad set of sampling and modelling conditions that are common to ecological observational studies. We conducted 4,050 virtual studies that measure the effect of forest management on soil carbon. These varied in sampling approach and meta-learner algorithm. The X-Learner algorithm that adjusts for selection bias yields the most accurate predictions of ITEs. Our findings pave the way for ecologists to leverage machine learning techniques for more effective and targeted management of ecosystems in the future.
Text
preprint_towards-causal-predictions_combined
- Author's Original
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In preparation date: 3 June 2025
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Local EPrints ID: 502846
URI: http://eprints.soton.ac.uk/id/eprint/502846
PURE UUID: 4168fa21-3d33-4ef4-8730-57bbfc521743
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Date deposited: 09 Jul 2025 16:38
Last modified: 12 Jul 2025 01:45
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Author:
Eleanor E. Jackson
Author:
Tord Snäll
Author:
Emma Gardner
Author:
James M. Bullock
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