Integrative forest management can promote biodiversity

Date:
2018/06/15

Time:
11:00

Room:
A1 Wilhelm

Integrative forest management can promote biodiversity

(Oral)

Inken Doerfler
inkendoerfler@gmail.com

Terrestrial Ecology Research Group, Department of Ecology and Ecosystem Management, School of Life Sciences Weihenstephan, Technical University Munich; Institute of Vegetation Science, Carl von Ossietzky University Oldenburg, Germany
,
Martin. M. Gossner
Swiss Federal Research Institute WSL, Switzerland
,
Jörg Müller
Bavarian Forest National Park, Zoology, Department of Conservation and Research; Field Station Fabrikschleichach, Biozentrum University of Würzburg,, Germany
,
Sebastian Seibold
Terrestrial Ecology Research Group, Department of Ecology and Ecosystem Management, School of Life Sciences Weihenstephan, Technical University Munich, Germany
,
Wolfgang W. Weisser
Terrestrial Ecology Research Group, Department of Ecology and Ecosystem Management, School of Life Sciences Weihenstephan, Technical University Munich, Germany

DOI: 10.17011/conference/eccb2018/107253

SEE PEER REVIEW

Integrative conservation strategies that combine production of commodities and conservation, are considered as a valuable tool to promote biodiversity in unprotected areas. In forests, a considerable proportion of biodiversity is dependent on deadwood structures, and an enrichment of deadwood is often proposed as important integrative conservation measure. The Bavarian State Forestry in Germany has implemented an integrative nature conservation strategy where the key element is the enrichment of deadwood during harvests. Deadwood is accumulated by leaving large and small diameter wood usually sold as firewood (discolored stems, crowns) after harvest combined with a retention of naturally developed deadwood. We examined the execution of this strategy in a forestry department in Bavaria (Germany), where it was implemented in 2006. We could show that with the implementation of the strategy deadwood amounts increased considerably. Therefore, we tested whether this strategy promotes biodiversity and influences assembly patterns of different species groups, which can give indications of a change in underlying mechanisms that shape the species communities, e.g. a change in the availability of niches. We conducted a before-after study to analyze the species numbers and the assembly pattern, based on functional-phylogenetic distance, of saproxylic beetles, saproxylic fungi, bird and plant assemblages in 68 beech forest plots. The plots were placed in forest nature reserves and production forest to include natural enrichment in reserves and active enrichment in production forests, which are both a part of the strategy. We tested whether integrative deadwood enrichment promotes the species numbers of the examined taxa and shifts the assembly pattern of the communities. For the assessment of assembly pattern, we used a distance matrix that combines functional and phylogenetic distance. With increasing deadwood amounts the species numbers of saproxylic beetles and fungi increased. The increases of species numbers occurred both in production forests with deadwood enrichment and in forest reserves. The species numbers of birds or plants did not change with deadwood enrichment. The functional-phylogenetic distance of saproxylic beetles increased towards an overdispersed pattern, i.e. increasing functional and phylogenetic dissimilarity between beetle species in the community, indicating an increase in the number of available niches with deadwood enrichment. Assembly patterns of the other examined taxa were unaffected by deadwood enrichment. This evaluation reveals a success of integrative deadwood enrichment in promoting the species numbers of saproxylic species and showing a fast increasing of niches for beetle communities.

SEE PEER REVIEW

INTRO:
In this paper ('Integrative forest management can promote biodiversity'), Doerfler and Colleagues analyse and discuss quite long term data on changes in forest biodiversity associated with change of deadwood amount. They found that increasing deadwood availability positively influenced biodiversity of saproxylic species (beetles and fungi) and observed also decrease in impact of environmental filters associated with forest management. The authors conclude that integrative forest management can play an important role in promoting biodiversity.
MERITS:
The paper merits lay first of all in the fact that our knowledge on the realized influecne of integrative forest management on forest biodiversity is scarce. The author nicely showed the positive connection between forest management aimed on increasing amounts of deadwood in ecosystem with biodiversity of deadwood dependent organisms (beetles and fungi). As expected vascular plants were not affected.
CRITIQUE:
None
DISCUSSION:
In many countries integrative forest management was implemented at least a decade ago. In others this approach was at least discussed. However, until now we were missing hard data showing positive effect of such management on forest biodiversity. In the presented study Authors did not find any influence of the integrative forest management on biodiversity of vascular plants, which is not a surprise, as if deadwood plays any role in it, the effects would be delayed probably for decades. Plants, especially so called 'ancient forest species' are dispersing slowly. More interesting is lack of the positive effect on bird diversity. On one side it may be caused by the fact that there are only few european bird species, which are really deadwood associated. On the other hand Authors say nothing about deadwood quality. Many bird species are associated rather with density of so called 'natural forest structures', like uprooted trees, standing snags, natural cavities, etc., than with simply high amounts of deadwood, especially if logs lying on the ground are considered.

- - -
INTRO:
The study investigated the effect of deadwood enrichment during harvesting on the diversity and assembly patterns of deadwood dependent species groups.
MERITS:
The study has a high scientific and application impact as it investigated an approach that can be directly transfered to forest managers. The before/after approach allows for a direct quantification of the success of the deadwood enrichment and is therefore very straightforward.
CRITIQUE:
I don't have any additional comments.
DISCUSSION:
This valuable contribution combines forest management and forest conservation and should receive high attention from a forest management perspective.

- - -
INTRO:
This communication presents results of application of the integrative approach in a managed forest
MERITS:
Although the integrative approach is not totally a new concept, it has been applicated very rarely at large scale in temperate forests. Furthermore, assessing habitat changes with a functional response is certainly the best way to convince forest managers to apply such integrative approach.
CRITIQUE:
It's not clear from the sampling design you compared both managed stands and reserves. What do you mean by (i) "assembly mechanisms of different species groups "? : changes in functional diversity? (ii) "environmental filters caused by forest management"? (iii) "functional-phylogenetic" ? : both functional and phylogenetic?
DISCUSSION:
It would be informative to discuss the relatively fast response of beetles to the deadwood amount increase (only ten years) since several authors highlighted a time lag response of this group; maybe only the beetles linked to decay stage 1 influence the assemblage changes observed?

Integrative forest management can promote biodiversity

Date:2018/06/15

Time:11:00

Room:A1 Wilhelm

Integrative forest management can promote biodiversity

(Oral)

SEE PEER REVIEW

SEE PEER REVIEW

Date:
2018/06/15

Time:
11:00

Room:
A1 Wilhelm