Trajectory analyses of past human land use as a tool to understand present terrestrial mammals' distribution

Date:
2018/06/12

Time:
11:30

Room:
K308 Cabinet

Trajectory analyses of past human land use as a tool to understand present terrestrial mammals' distribution

(Oral)

Ester Polaina
e.polaina@gmail.com

Department of Forestry, University of Ljubljana (Slovenia) Doñana Biological Station EBD-CSIC, Seville (Spain), Slovenia
,
Manuela Gonzalez-Suarez
University of Reading, United Kingdom
,
Eloy Revilla
Doñana Biological Station EBD-CSIC, Seville, Spain

DOI: 10.17011/conference/eccb2018/107544

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Apart from the known environmental factors influencing species distribution at the global scale, additional anthropogenic factors need to be considered in order to understand their current extents of occurrence. Namely, threatened species should particularly be influenced by human activities, since they are known to be in decline under their influence. The role of present human activities in modeling species distribution seems clear, but there is still a facet of land use that has not yet been sufficiently explored: land-use history. In the present work we show how to summarize overall land-use trajectories based on available data ranging from c.B.C.6000 to c.A.D.2000 by using a clustering method. Then, we explore how indicators of total land use area at different time spans, rates of land-use change, or the occurrence of remarkable land-use shifts associate to the current distribution of total and threatened mammal richness by means of boosted regression trees. We find that we can separate the Earth surface into three groups, according to their trajectory of past land use: low-, recently- and steadily-used areas. Differences in total or threatened mammalian richness among clusters are not significant, however differences in the shape of the past land use- species richness relationship are relevant. This finding warn us about the risk of interpreting certain patterns as global rules, when they may actually depend on the past land-use history of an area. On the other hand, past land-use metrics are little relevant in predicting their distribution compared to latitude or total mammalian richness. Nevertheless, past land-use indicators are more informative than present land-use values, which may be pointing at the existence of a generalized extinction debt in the whole planet Earth regarding mammals. In conclusion, understanding general past land-use changes improves our ability to interpret current species distribution patterns.

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INTRO:
The abstract investigates the effect of historical land use on the current distribution patterns of mammals (species richness and threatened species richness). Three indicators are used, namely total land use area at different time spans, rates of land-use change, and the occurrence of remarkable land-use shifts. The comparative impact of the indicators is assessed vis-a-vis well-known drivers such as latitudinal gradient.
MERITS:
The authors treat an issue of great conservation interest in global terms. They introduce the time parameter in their analysis as far as general past land use is concerned. The issue is topical as the knowledge of historical land-use changes gives a new perspective in understanding and interpreting current species distribution patterns. This approach is often omitted in ecological interpretations nowadays and is expected to potentially change our ecological thinking on species distribution pattern interpretation. Furthermore, defining land-use trajectories from c.B.C.6000 to c.A.D.2000 has a merit per se. The use of regression trees to do so is also a challenging approach.
CRITIQUE:
The authors state " ...differences in the shape of the past land use- species richness relationship are relevant" - this is their basic result, but it is not quite clear for the reader to understand the main finding. A better phrasing or description of the result is required. The authors find that past land-use metrics can't predict mammalian distribution patterns, which are better predicted by the well-known latitudinal gradient. However, they state that these metrics are more informative than present land-use values, which it does not seem to be well supported by their results.
DISCUSSION:
A better description of the analytical approach followed and the main findings would greatly improve the abstract. I would also suggest for authors to consider if it is possible to reanalyze data excluding the noise of latitudinal gradient (e.g. comparing clusters within the same broad latitudinal zone), so as to reach clearer conclusion on the effect of historical land use on current distribution patterns of mammals. In all cases, this work is of global scientific interest and has a clear perspective in altering ecological thinking in several levels of conservation decision-making.

Trajectory analyses of past human land use as a tool to understand present terrestrial mammals' distribution

Date:2018/06/12

Time:11:30

Room:K308 Cabinet

Trajectory analyses of past human land use as a tool to understand present terrestrial mammals' distribution

(Oral)

Ester Polaina e.polaina@gmail.com Department of Forestry, University of Ljubljana (Slovenia) Doñana Biological Station EBD-CSIC, Seville (Spain), Slovenia, Manuela Gonzalez-Suarez University of Reading, United Kingdom, Eloy Revilla Doñana Biological Station EBD-CSIC, Seville, Spain

SEE PEER REVIEW

SEE PEER REVIEW

Date:
2018/06/12

Time:
11:30

Room:
K308 Cabinet

Ester Polaina
e.polaina@gmail.com

Department of Forestry, University of Ljubljana (Slovenia) Doñana Biological Station EBD-CSIC, Seville (Spain), Slovenia
,
Manuela Gonzalez-Suarez
University of Reading, United Kingdom
,
Eloy Revilla
Doñana Biological Station EBD-CSIC, Seville, Spain