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Extending the climatological concept of'Detection and Attribution' to global change ecology in the Anthropocene

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Büntgen, Ulf and González Rouco, J. Fidel and Luterbacher, Jürg and Stenseth, Nils Christian and Johnson, Derek M. (2020) Extending the climatological concept of'Detection and Attribution' to global change ecology in the Anthropocene. Functional Ecology . ISSN 0269-8463, ESSN: 1365-2435

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Official URL: http://dx.doi.org/10.1111/1365-2435.13647




Abstract

Research into global change ecology is motivated by the need to understand the role of humans in changing biotic systems. Mechanistic understanding of ecological responses requires the separation of different climatic parameters and processes that often operate on diverse spatiotemporal scales. Yet most environmental studies do not distinguish the effects of internal climate variability from those caused by external, natural (e.g. volcanic, solar, orbital) or anthropogenic (e.g. greenhouse gases, ozone, aerosols, land-use) forcing factors.
We suggest extending the climatological concept of ‘Detection and Attribution’ (DA) to unravel abiotic drivers of ecological dynamics in the Anthropocene. We therefore apply DA to quantify the relative roles of natural versus industrial temperature change on elevational shifts in the outbreak epicentres of the larch budmoth (LBM; Zeiraphera diniana or griseana Gn.); the classic example of a cyclic forest defoliating insect.
Our case study shows that anthropogenic warming shifts the epicentre of travelling LBM waves upward, which disrupts the intensity of population outbreaks that occurred regularly over the past millennium in the European Alps. Our findings demonstrate the ability of DA to detect ecological responses beyond internal system variability, to attribute them to specific external climate forcing factors and to identify climate-induced ecological tipping points.
In order to implement the climatological concept of ‘Detection and Attribution’ successfully into modern global change ecology, future studies should combine high-resolution paleoenvironmental reconstructions and state-of-the-art climate model simulations to inform inference-based ecosystem models.


Item Type:Article
Additional Information:

© 2020 The Authors. U.B. received funding from the SustES Project (CZ.02.1.01/0.0/0.0/ 16_019/0000797). J.F.G.-R. acknowledges the projects ILModelS_ CGL2014-59644-R and GReatModelS_RT1218-102305-B-C21. J.L. is thankful to the JPI-Climate/Belmont Forum collaborative Research Action ‘INTEGRATE’, and the Climate Science for Service Partnership China project (CSSP China).

Uncontrolled Keywords:Larch budmonth outbreaks; Anthropogenic climate-change; Temperature C3 grasslands; Tipping points; Traveling-waves; Earths climate; Tree; Reconstructions; Dynamics; Variability
Subjects:Sciences > Physics > Atmospheric physics
ID Code:62457
Deposited On:09 Oct 2020 11:12
Last Modified:13 Oct 2020 07:30

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