SEE PEER REVIEW

INTRO:

Interseting case about microhabitats that create buffering microclimates, especially during hot days and heat waves.

MERITS:

Fine abstract!

CRITIQUE:

Nothing to add!

DISCUSSION:

The aspect with the buffering of the cold temperatures might also be interesting!

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INTRO:

The abstract details an important study of the degree to which habitat refugia are able to buffer temperatures against high ambient temperatures. Three different refugia, useful to a range of fauna, are investigated.

MERITS:

The abstract quantifies the amount by which the refugia differ from ambient temperatures, and how this relationship changes as ambient temperatures increase. It also captures information of differences within the same habitat types (e.g. the depth of tree hollows) which introduce additional variation into the extent of buffering ability.

CRITIQUE:

No information is provided on the type of fauna expected to use each of the different refuges studied. Were the refuge types chosen because they are believed to be important to specific target species of larger vertebrate fauna, or because they harbour communities of smaller invertebrate fauna? I hope that the talk will go on to cover the differences in the amount of buffering provided by the three refuge habitats.

DISCUSSION:

Quantifying the extent to which habitat refuges buffer temperature regimes under a range of increasing ambient temperatures is an important step in developing more accurate models of species future distributions and available habitat/climate. This research provides this crucial step, and it would be interesting to discuss how this can be built into broader-scale climatic modelling.

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INTRO:

The author showed how tree hollows, cavities formed by leaves, and leaf litter buffer the temperature variation creating microhabitats with relatively stable thermal conditions. These microhabitats can be important short-term refuges especially for mobile and small species under warming climate.

MERITS:

The topic is interesting and the thermal buffering capacity of studied microhabitats is even stronger than I expected. I think very few studies have been done at this extremely small scale, which further boosts the importance of this study. It is very interesting finding how the buffering effect increased when the ambient temperature rises respectively.

CRITIQUE:

The only critique I come up with was the lack of certain critical information that a reader needs to thoroughly evaluate the importance of the study. I would like to know more about the methodology and data used in the study. Did author used some microloggers, how many and how long? Was the study setting paired or what was the "null-condition" that the refuges were compared to. 

DISCUSSION:

The topic is relevant for wide range of different fields of ecology and conservational biology. I really wait to hear what are the suggestions from the author how to improve the thermal buffering capacity of natural and managed landscapes. I wonder whether the author collected any biotic data from the logger sites. In the other words, is there empirical scientific evidence that these microhabitats really function as short-term refuges for number of species? This is also great opportunity for species distribution modellers to include some more mechanistic biotic variables in their model.