Your search keyword '"Hjältén, Joakim"' showing total 38 results

1. The intensity of forest management affects the nest cavity production of woodpeckers and tits in mature boreal forests

Author

Pakkala, Timo, Peltonen, Anna, Lindberg, Henrik, Hjältén, Joakim, and Kouki, Jari

Published

2024

2. Translocation of deadwood in ecological compensation: A novel way to compensate for habitat loss

Author

Tranberg, Olov, Hekkala, Anne-Maarit, Lindroos, Ola, Löfroth, Therese, Jönsson, Mari, Sjögren, Jörgen, and Hjältén, Joakim

Published

2024

3. Trait-environment interactions of saproxylic beetles as a guide to biodiversity conservation strategies

Author

Bergmark, Paulina, Hjältén, Joakim, Svensson, Johan, Neumann, Wiebke, and Hekkala, Anne-Maarit

Published

2024

4. Short-term effects of continuous cover forestry on forest biomass production and biodiversity: Applying single-tree selection in forests dominated by Picea abies

Author

Ekholm, Adam, Axelsson, Petter, Hjältén, Joakim, Lundmark, Tomas, and Sjögren, Jörgen

Published

2022

5. Long-term yield and biodiversity in stands managed with the selection system and the rotation forestry system: A qualitative review

Author

Ekholm, Adam, Lundqvist, Lars, Petter Axelsson, E., Egnell, Gustaf, Hjältén, Joakim, Lundmark, Tomas, and Sjögren, Jörgen

Published

2023

6. Keeping pace with forestry : Multi-scale conservation in a changing production forest matrix

Author

Felton, Adam, Löfroth, Therese, Angelstam, Per, Gustafsson, Lena, Hjältén, Joakim, Felton, Annika M., Simonsson, Per, Dahlberg, Anders, Lindbladh, Matts, Svensson, Johan, Nilsson, Urban, Lodin, Isak, Hedwall, P. O., Sténs, Anna, Lämås, Tomas, Brunet, Jörg, Kalén, Christer, Kriström, Bengt, Gemmel, Pelle, and Ranius, Thomas

Published

2020

7. The contribution of insects to global forest deadwood decomposition

Author

Seibold, Sebastian, Rammer, Werner, Hothorn, Torsten, Seidl, Rupert, Ulyshen, Michael D., Lorz, Janina, Cadotte, Marc W., Lindenmayer, David B., Adhikari, Yagya P., Aragón, Roxana, Bae, Soyeon, Baldrian, Petr, Barimani Varandi, Hassan, Barlow, Jos, Bässler, Claus, Beauchêne, Jacques, Berenguer, Erika, Bergamin, Rodrigo S., Birkemoe, Tone, Boros, Gergely, Brandl, Roland, Brustel, Hervé, Burton, Philip J., Cakpo-Tossou, Yvonne T., Castro, Jorge, Cateau, Eugénie, Cobb, Tyler P., Farwig, Nina, Fernández, Romina D., Firn, Jennifer, Gan, Kee Seng, González, Grizelle, Gossner, Martin M., Habel, Jan C., Hébert, Christian, Heibl, Christoph, Heikkala, Osmo, Hemp, Andreas, Hemp, Claudia, Hjältén, Joakim, Hotes, Stefan, Kouki, Jari, Lachat, Thibault, Liu, Jie, Liu, Yu, Luo, Ya-Huang, Macandog, Damasa M., Martina, Pablo E., Mukul, Sharif A., Nachin, Baatarbileg, Nisbet, Kurtis, O’Halloran, John, Oxbrough, Anne, Pandey, Jeev Nath, Pavlíček, Tomáš, Pawson, Stephen M., Rakotondranary, Jacques S., Ramanamanjato, Jean-Baptiste, Rossi, Liana, Schmidl, Jürgen, Schulze, Mark, Seaton, Stephen, Stone, Marisa J., Stork, Nigel E., Suran, Byambagerel, Sverdrup-Thygeson, Anne, Thorn, Simon, Thyagarajan, Ganesh, Wardlaw, Timothy J., Weisser, Wolfgang W., Yoon, Sungsoo, Zhang, Naili, and Müller, Jörg

Published

2021

8. A decadal study reveals that restoration guided by an umbrella species does not reach target levels.

Author

Larsson Ekström, Albin, Hjältén, Joakim, and Löfroth, Therese

Subjects

*KEYSTONE species, *FOREST restoration, *DECIDUOUS forests, *SPECIES diversity, *BIOTIC communities

Abstract

Maintaining structural and functional elements of ecosystems are essential in order to preserve biodiversity and ecosystem function. As a means of guiding conservation work, the umbrella species concept was developed. In Sweden, one putative umbrella species, the white‐backed woodpecker, has guided conservation and restoration of deciduous forests for two decades.Here, we evaluate the decadal effects of restoration aimed at the white‐backed woodpecker on biodiversity of saproxylic beetles. We compare stands that were restored 12 to 21 years ago to non‐restored stands and historical white‐backed woodpecker habitats acting as restoration target stands.Restored stands contained higher deciduous deadwood volumes than non‐restored stands but lower volumes than restoration target stands. The deadwood in restored stands was concentrated in later decay stages, whereas target stand deadwood was more evenly distributed across decay stages.Restored stands had similar species richness and abundance of most groups of saproxylic beetles compared with non‐restored stands while not reaching the levels of restoration target stands. Species assemblages differed among all stand types with restored stands supporting late decay stage and generalist species while target stands supported more deciduous associated and threatened species.Synthesis and applications: We conclude that after one to two decades, restoration improve stand structure and benefit beetle diversity but that target levels are not yet reached. Thus, only partial restoration is achieved. Our results stress that for restoration to be successful both continuous and repeated restoration efforts are needed and that it is important to identify target levels of important habitat characteristics when assessing restoration outcome. We conclude that after one to two decades, restoration improve stand structure and benefit beetle diversity but that target levels are not yet reached. Thus, only partial restoration is achieved. Our results stress that for restoration to be successful both continuous and repeated restoration efforts are needed and that it is important to identify target levels of important habitat characteristics when assessing restoration outcome. [ABSTRACT FROM AUTHOR]

Published

2024

9. Forest restoration as a double-edged sword: the conflict between biodiversity conservation and pest control

Author

Kärvemo, Simon, Björkman, Christer, Johansson, Therese, Weslien, Jan, and Hjältén, Joakim

Published

2017

10. Uneven-aged silviculture can enhance within stand heterogeneity and beetle diversity

Author

Joelsson, Klara, Hjältén, Joakim, and Work, Timothy

Published

2018

11. Forest–Stream Links, Anthropogenic Stressors, and Climate Change : Implications for Restoration Planning

Author

HJÄLTÉN, JOAKIM, NILSSON, CHRISTER, JØRGENSEN, DOLLY, and BELL, DAVID

Published

2016

12. Seasonal variations in nutrients and secondary metabolites in semi-arid savannas depend on year and species

Author

Scogings, Peter F., Hattas, Dawood, Skarpe, Christina, Hjältén, Joakim, Dziba, Luthando, Zobolo, Alpheus, and Rooke, Tuulikki

Published

2015

13. Time for recovery of riparian plants in restored northern Swedish streams: a chronosequence study

Author

Hasselquist, Eliza Maher, Nilsson, Christer, Hjältén, Joakim, Jørgensen, Dolly, Lind, Lovisa, and Polvi, Lina E.

Published

2015

14. Ambient and substrate energy influence decomposer diversity differentially across trophic levels.

Author

Kriegel, Peter, Vogel, Sebastian, Angeleri, Romain, Baldrian, Petr, Borken, Werner, Bouget, Christophe, Brin, Antoine, Bussler, Heinz, Cocciufa, Cristiana, Feldmann, Benedikt, Gossner, Martin M., Haeler, Elena, Hagge, Jonas, Hardersen, Sönke, Hartmann, Henrik, Hjältén, Joakim, Kotowska, Martyna M., Lachat, Thibault, Larrieu, Laurent, and Leverkus, Alexandro B.

Subjects

FOOD chains, SOLAR radiation, WOOD, BEETLES

Abstract

The species‐energy hypothesis predicts increasing biodiversity with increasing energy in ecosystems. Proxies for energy availability are often grouped into ambient energy (i.e., solar radiation) and substrate energy (i.e., non‐structural carbohydrates or nutritional content). The relative importance of substrate energy is thought to decrease with increasing trophic level from primary consumers to predators, with reciprocal effects of ambient energy. Yet, empirical tests are lacking. We compiled data on 332,557 deadwood‐inhabiting beetles of 901 species reared from wood of 49 tree species across Europe. Using host‐phylogeny‐controlled models, we show that the relative importance of substrate energy versus ambient energy decreases with increasing trophic levels: the diversity of zoophagous and mycetophagous beetles was determined by ambient energy, while non‐structural carbohydrate content in woody tissues determined that of xylophagous beetles. Our study thus overall supports the species‐energy hypothesis and specifies that the relative importance of ambient temperature increases with increasing trophic level with opposite effects for substrate energy. [ABSTRACT FROM AUTHOR]

Published

2023

15. Positive effects of ecological restoration on rare and threatened flat bugs (Heteroptera: Aradidae)

Author

Hägglund, Ruaridh, Hekkala, Anne-Maarit, Hjältén, Joakim, and Tolvanen, Anne

Published

2015

16. Ecological restoration for biodiversity conservation triggers response of bark beetle pests and their natural predators.

Author

Hekkala, Anne-Maarit, Kärvemo, Simon, Versluijs, Martijn, Weslien, Jan, Björkman, Christer, Löfroth, Therese, and Hjältén, Joakim

Subjects

BARK beetles, RESTORATION ecology, BIODIVERSITY conservation, IPS typographus, FOREST restoration, FOREST biodiversity

Abstract

The restoration of forest structure and function is increasingly being used in boreal forests in order to halt the loss of biodiversity. Often ecological restoration is aimed at increasing the volume of dead and dying trees to enhance the biodiversity of deadwood-dependent organisms, but it may also increase population sizes of pest bark beetle species, even several years following restoration. Herein, we used a large-scale restoration experiment in Northern Sweden to assess the 5 years post-restoration effects of restorative gap cutting and prescribed burning on the populations of a set of economically harmful pest bark beetles (Ips typographus , Polygraphus poligraphus , Tomicus piniperda and Pityogenes chalcographus) and the most important predators of bark beetles, Thanasimus spp. In addition, we assessed the effects of forest stand characteristics at stand and landscape scale on the abundance of I. typographus. Five years post-restoration, gap-cut stands supported the highest abundances of P. poligraphus and contained the highest count of spruce trees newly attacked by bark beetles. By contrast, prescribed burning generally sustained the lowest abundances of pest bark beetles, especially I. typographus and P. poligraphus , and the highest abundance of their natural predators Thanasimus spp. The population abundance of I. typographus was also positively affected by the area of clear cuts within a 500 m radius from the stand. In conclusion, prescribed burning appears to be a safer method for ecological restoration than gap cutting in the long-term. According to our results, a risk of a local bark beetle outbreak still remains 5 years following the initiation of ecological restoration treatments on spruce-dominated mature gap-cut stands. [ABSTRACT FROM AUTHOR]

Published

2021

17. Foraging behavior of the Eurasian Three-toed Woodpecker (Picoides tridactylus) and its implications for ecological restoration and sustainable boreal forest management.

Author

Versluijs, Martijn, Eggers, Sönke, Mikusiński, Grzegorz, Roberge, Jean-Michel, and Hjältén, Joakim

Abstract

Copyright of Avian Conservation & Ecology is the property of Resilience Alliance and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

18. Ecological restoration modifies the value of biodiversity indicators in resident boreal forest birds.

Author

Versluijs, Martijn, Hjältén, Joakim, and Roberge, Jean-Michel

Subjects

*RESTORATION ecology, *BIODIVERSITY, *TAIGAS, *FOREST birds, *NORTHERN three-toed woodpecker, *BIOINDICATORS

Abstract

Highlights • Three-toed woodpecker and Siberian jay are important biodiversity indicators. • Prescribed burning changed indicator values of biodiversity indicators. • Biodiversity indicators indicate high species richness and structural complexity. • We must be careful with using previous identified indicator species in ecosystems subjected to ecological restoration. Abstract A wide range of different biodiversity indicators have been identified in different biomes and types of environments. However, we currently lack a clear understanding under which circumstances proposed biodiversity indicators are valid indicators and when they are not. Here we conducted a large-scale restoration experiment by emulating natural disturbances through prescribed burning and gap-cutting. From this experiment data of resident forest birds was used to, (1) identify biodiversity indicators in the middle and northern boreal zone, (2) test the effect of forest restoration practices on biodiversity indicators and (3) explore the patterns when biodiversity indicator analyses are performed across a wider range of forest types including both restored and unrestored sites. Additionally, to understand the occurrence of species we correlated their occurrence with local habitat structures across different forest types. We found that both the three-toed woodpecker (Picoides tridactylus) and Siberian jay (Perisoreus infaustus) were important biodiversity indicators for the middle/northern boreal zone. The occurrence of these species can generally be used to identify species rich areas across different forest types. However, the three-toed woodpecker, the best indicator for unrestored forest, lost its indicator value after prescribed burning; in these stands the goldcrest (Regulus regulus) was the best biodiversity indicator. Based on habitat associations, we suggest that biodiversity indicators in boreal forest not only indicate high species richness but also structural habitat complexity. Our results draw attention to the fact that one must be careful about using previously identified biodiversity indicators in ecosystems subjected to ecological restoration. [ABSTRACT FROM AUTHOR]

Published

2019

19. Substrate specific restoration promotes saproxylic beetle diversity in boreal forest set-asides.

Author

Hägglund, Ruaridh and Hjältén, Joakim

Subjects

INSECT diversity, FOREST restoration, SAPROXYLIC insects, BEETLES, TAIGAS

Abstract

In many parts of the boreal biome intensive forest management has resulted in profound changes in forest structure, tree species composition and dead wood availability, and by so negatively effecting forest biodiversity. Restoration of degraded forest habitats is therefore of high priority, both internationally and nationally. Consequently, it is of uttermost importance to develop cost-efficient restoration methods. We have therefore initiated a cost neutral ecological restoration experiment aimed at increasing the variety and volume of dead wood in voluntary set-asides (as part of the FSC certification requirements) by mimicking the two natural disturbances, forest fire and small scale gap dynamics. We studied how tree species and substrate type, i.e. the way in which a tree was killed (cut, girdled, tipped over or cut to produce a high stump), affect species composition, abundance and species richness of saproxylic beetles. We found that species composition differed between tree species in burned as well as gap-cut stands, and that tree posture, i.e. standing or downed trees, also affected species composition in gap-cut stands. In addition, abundance and species richness differed between tree species in gap-cut stands, generally being higher in spruce than in pine and birch. Based on our results we recommend a wider practice of dead wood creation involving a multitude of tree species and tree postures, through mimicking natural disturbances in the management of boreal forests. Furthermore, we suggest that voluntary set-asides provide an excellent opportunity for restoration as they are wide spread and already available in the forest landscape. Restoration cost can therefore be kept at a minimum or totally avoided as in this study. [ABSTRACT FROM AUTHOR]

Published

2018

20. Are we restoring enough? Simulating impacts of restoration efforts on the suitability of forest landscapes for a locally critically endangered umbrella species.

Author

Hof, Anouschka R. and Hjältén, Joakim

Subjects

*FOREST restoration, *FOREST biodiversity, *HABITATS, *WHITE-backed woodpecker, *KEYSTONE species

Abstract

Habitat restoration is often implemented to mitigate the negative effects of intensive forestry on biodiversity. It may be increasingly adopted in future to alleviate additional negative effects of climate change. Ascertaining the restoration effort needed to fulfill project goals is difficult. Insights may be gained through simulating the effects of restoration efforts on landscape dynamics through time. Here we used a spatially explicit landscape simulation model to simulate the effects of different restoration efforts on forest landscapes in Sweden to assess the level of mitigation that is needed to allow viable populations of the locally critically endangered White‐backed Woodpecker (Dendrocopos leucotos); an umbrella species whose protection may serve the protection of a range of other species. Based on the goals of the protection plan for the species, which reflect its habitat requirements, we evaluated which of several restoration scenarios could fulfill goals with respect to (1) the amount of deciduous forest; (2) the amount of dead wood; and (3) the age of the forest. We found that whereas it may be relatively easy and quick to acquire high levels of dead wood, increasing the proportions of deciduous forest and of old forests require considerably more time and effort. Also, current management actions would not be sufficient to create the required amount of habitat to conserve the White‐backed Woodpecker in our study region. Simulations like ours can provide valuable information about the levels of restoration needed through time to fulfill project goals and may prevent wasting valuable resources, time, effort, and money. [ABSTRACT FROM AUTHOR]

Published

2018

21. Forest management strategy affects saproxylic beetle assemblages: A comparison of even and uneven-aged silviculture using direct and indirect sampling.

Author

Joelsson, Klara, Hjältén, Joakim, and Gibb, Heloise

Subjects

*SAPROXYLIC insects, *FOREST management, *FOREST management & the environment, *FORESTS & forestry, *BIODIVERSITY

Abstract

Management of forest for wood production has altered ecosystem structures and processes and led to habitat loss and species extinctions, worldwide. Deadwood is a key resource supporting forest biodiversity, and commonly declines following forest management. However, different forest management methods affect dead wood differently. For example, uneven-aged silviculture maintains an age-stratified forest with ongoing dead wood production, while even-aged silviculture breaks forest continuity, leading to long periods without large trees. We asked how deadwood-dependent beetles respond to different silvicultural practices and if their responses depend on deadwood volume, and beetles preference for decay stages of deadwood. We compared beetle assemblages in five boreal forest types with different management strategies: clearcutting and thinning (both representing even-aged silviculture), selective felling (representing uneven-aged silviculture), reference and old growth forest (both uneven-aged controls without a recent history [~50 years] of management, but the latter with high conservation values). We collected beetles using window traps and by sieving the bark from experimental logs (bolts). Beetle assemblages on clear-cuts differed from all other stand types, regardless of trapping method or decay stage preference. Thinning differed from reference stands, indicating incomplete recovery after clear-cutting, while selective felling differed only from clear-cuts. In contrast to our predictions, early and late successional species responded similarly to different silvicultural practices. However, there were indications of marginal assemblage differences both between thinned stands and selective felling and between thinned and old growth stands (p = 0.10). The stand volume of early decay stage wood influenced assemblage composition of early, but not late successional species. Uneven-aged silviculture maintained species assemblages similar to those of the reference and old growth stands and might therefore be a better management option when considering biodiversity conservation. [ABSTRACT FROM AUTHOR]

Published

2018

22. Biodiversity benefits for saproxylic beetles with uneven-aged silviculture.

Author

Hjältén, Joakim, Joelsson, Klara, Gibb, Heloise, Work, Timothy, Löfroth, Therese, and Roberge, Jean-Michel

Subjects

SAPROXYLIC insects, SUSTAINABLE forestry, CLEARCUTTING, FOREST management, FOREST biodiversity, MANAGEMENT

Abstract

Large scale use of even-aged silviculture (clear-cutting) commencing in the mid-20th century has had negative impacts on forest biodiversity. As a consequence, uneven-aged silviculture is currently being considered to help meet the ecological and social criteria required for sustainable forest management. Uneven-aged silviculture (e.g. selective felling) involves selective removal of some older trees in a stand which may to some extent mimics natural small scale stand dynamics and thus potentially benefit species associated with old forests. Here we test whether selective felling benefits beetle biodiversity by producing beetle assemblages that better resemble those of old growth stands than those found in uncut production stands. We conducted a field study in northern Sweden, comparing beetles assemblages collected with window traps in three spruce dominated stand types: (1) Stands recently (on average 7 years prior to the study) subjected to selective felling ( Selective felling ), (2) mature uneven-aged stands without recent history of management, resembling selective felling stands prior to management ( Uncut ), and (3) old-growth stands with high conservation values ( Old growth ). As predicted, we found that assemblage composition was similar in selective felling and old growth stands, and that assemblages of cambivores and obligate saproxylics (marginally significant) differed between these two stand types and uncut stands. The differences were largely explained by a higher abundance of saproxylic species presumably associated with old growth conditions and large volumes of deadwood. Thus, although overall assemblage composition did not differ between stand types, part of the beetle community seemingly benefited from selective felling. We therefore recommend that selective felling is considered as an alternative to clear-felling to maintain biodiversity values. [ABSTRACT FROM AUTHOR]

Published

2017

23. Ecological restoration in boreal forest modifies the structure of bird assemblages.

Author

Versluijs, Martijn, Eggers, Sönke, Hjältén, Joakim, Löfroth, Therese, and Roberge, Jean-Michel

Subjects

RESTORATION ecology, BIRD ecology, TAIGAS, BIODIVERSITY conservation, FORAGING behavior

Abstract

Ecological restoration is increasingly recognised as a useful tool for biodiversity conservation in boreal forests. Most restoration methods in this environment aim to emulate natural disturbances, and thereby promote the development of key ecological structures. However, research about forest ecosystem restoration is still in its infancy and the responses of many boreal species groups remain to be described. We established a large-scale field experiment to evaluate the short-term effects of two restoration treatments – prescribed burning and gap cutting involving the creation of dead wood – on breeding bird assemblages in boreal Sweden. We censused breeding birds using territory mapping during two years in forest stands subjected to the two restoration treatments, in untreated controls and in old-growth references (nature reserves) (n = 10 per treatment). Averaged over the two census years, we found 1145 territories of 36 bird species. Total bird species richness and abundance did not differ among treatments. However, prescribed burning led to clear changes in the structure of the bird assemblages. When dividing species according to four functional categorizations (migration, foraging, nesting and successional stage), we found that the abundance of long-distance migrants, ground breeders, strong cavity excavators and species preferring early-successional habitat was higher in burned stands than in untreated controls and gap-cut stands, as was the species richness of bark feeders and strong cavity excavators. In contrast, abundance of off-ground breeders and species richness of crown feeders were lower following prescribed burning than in the controls. The gap cutting treatment did not have any significant effects on the bird assemblages. Ecological restoration through prescribed burning can be a useful tool for the conservation of boreal forest birds, including the ecologically important strong cavity excavators (i.e. woodpeckers (Picidae)). Forest managers should therefore be encouraged to use prescribed burning as a restoration tool to quickly provide habitat for bird species adapted to natural disturbances in boreal forest. [ABSTRACT FROM AUTHOR]

Published

2017

24. Uneven-aged silviculture can reduce negative effects of forest management on beetles.

Author

Joelsson, Klara, Hjältén, Joakim, Work, Timothy, Gibb, Heloise, Roberge, Jean-Michel, and Löfroth, Therese

Subjects

FORESTS & forestry, BEETLES, FOREST management, BIODIVERSITY, FOREST canopies, OLD growth forests

Abstract

Decline in biodiversity have increased the interest in alternative forest management approaches. Uneven-aged silviculture has been proposed as a mean to maintain continuity of forest canopy cover, mimic small-scale disturbances and provide a stratified forest structure similar to that of old-growth forests and therefore better maintain species associated with unmanaged forest. We used a large-scale chronosequence study spanning 50 years to study beetle diversity in uneven-aged silviculture compared with both short-term impacts and the longer-term legacy of even-aged silviculture. We compared: (1) even-aged recently clear-felled stand, (2) even-aged recently thinned stand, (3) uneven-aged stands subjected to selective felling with (4) uneven-aged reference stands to evaluate whether abundance, species richness and composition of beetles (Coleoptera) were affected differently by even-aged than by uneven-aged management. We collected 15,147 beetles from 461 species using flight interception traps in 30 stands. Beetle composition was maintained in uneven-aged managed stands; composition did not differ from unmanaged reference stands, the exception being cambium consumers. Both even-aged silviculture treatments (clear-felling and thinning) had different beetle composition compared to the reference stands, indicating that assemblages had yet to recover even 50 years into the rotation. However, beetle composition did not differ between uneven-aged managed and thinned stands. The result supports our prediction that uneven-aged silviculture better maintains beetles assemblages associated with semi-natural mature forest than even-aged silviculture. The greater temporal continuity in selectively felled stands could benefit species dependent of mature or old growth forest since some of the needed habitat qualities are continuously available. Uneven-aged silviculture could therefore serve as an important tool for landscape planning to benefit biodiversity and thus help fulfil environmental commitments. However, uneven-aged silviculture may still alter the forest and should therefore be viewed as an alternative to even-aged silviculture, rather than to set-asides. [ABSTRACT FROM AUTHOR]

Published

2017

25. Short-term response to stump harvesting by the ground flora in boreal clearcuts.

Author

Andersson, Jon, Dynesius, Mats, and Hjältén, Joakim

Subjects

HARVESTING, BRYOPHYTES, CUTOVER lands, VASCULAR plants, FORESTS & forestry

Abstract

We studied short-term ground vegetation responses to stump harvesting by recording the occurrence of all species of bryophytes, vascular plants and the cover of soil disturbance on 20 clearcuts in the Southern and Middle Boreal zone in northern Scandinavia. All 20 clearcuts were slash-harvested and scarified and 10 of the clearcuts were also stump-harvested. The added effect of stump harvesting was assessed by comparing stump-harvested clearcuts with non-stump-harvested clearcuts. We tested whether stump harvesting causes extra soil disturbance compared to conventional forestry and if stump harvesting is affecting the assemblage, species richness and occurrence of individual species of vascular plants and bryophytes in boreal clearcuts. Our results revealed that stump harvesting causes an increase in the area of disturbed soil surface compared to conventional harvesting. Four of the most commonly occurring plant species in this area were significantly affected by stump harvesting, andVaccinium vitis-idaeahad a median occurrence of only 20% of that in non-stump-harvested clearcuts. The large impact on some plant species from a relatively modest increase of soil disturbance caused by stump harvesting suggest that stumps, with their slightly elevated bases, contributes to the survival of certain species on clearcuts. [ABSTRACT FROM PUBLISHER]

Published

2017

26. Defining stump harvesting retention targets required to maintain saproxylic beetle biodiversity.

Author

Work, Timothy T., Andersson, Jon, Ranius, Thomas, and Hjältén, Joakim

Subjects

LOGGING & the environment, SAPROXYLIC insects, INSECT diversity, CLEARCUTTING, SPECIES diversity

Abstract

Stumps comprise up to 80% of the residual deadwood following clear cutting and are a significant source of biomass for bioenergetic applications. However, stump harvesting may pose significant conservation risks for saproxylic organisms that occur in residual deadwood. To define retention targets for stump harvesting operations, we compared abundance and species richness of saproxylic beetles within individual stumps as well as species accumulation curves in replicated pairs of clear cuts with and without stump harvesting in northern Sweden. Using 20 stands, we sampled 1049 stumps using eclector traps and collected 9821 beetles representing 253 species with known saproxylic biology. Nineteen of these species were red-listed in Sweden. We hypothesized that individual stumps left following stump harvesting would contain higher densities and species richness than in clear cuts without stump removal due to crowding of beetles into increasingly limited habitats. However, we found no difference in density or richness within individual stumps between control clear cuts and stumped stands. We also compared species richness between control and stumped treatments using rarefaction within individual stands and across all stands and found no difference. As with density and richness, beetle composition at the stand-level did not differ between control and stumped stands. Thus, the density of surrounding stumps within a stand had very little effect on beetle assemblages in residual stumps. We estimated the effect of stump harvest on species richness at the stand level by combining all samples and extrapolating a rarefaction curve derived from the landscape-level species pool to an accumulated sample volume of 48 m 3 which corresponds to the total volume of stumps on average-sized clear cuts in Northern Sweden. Using this curve, we compared differences in species richness in average-sized clear cuts with 100% (48 m 3 ) and 25% (12 m 3 ) stump retention and found that stump harvest resulted in a 26% (95% C.I. 7–41%) loss of species. While the absolute scaling of the landscape-derived rarefaction does not reflect species loss at the stand-level because the combined curve reflects all rare species in the landscape, the relative species loss derived from this curve may serve as credible benchmark for species loss at the stand level following current stump harvesting practices. This benchmark may be further calibrated with additional information on number of singleton species and estimates of maximum species richness. [ABSTRACT FROM AUTHOR]

Published

2016

27. Long-term effects of clear-cutting on epigaeic beetle assemblages in boreal forests.

Author

Johansson, Therese, Hjältén, Joakim, Olsson, Jörgen, Dynesius, Mats, and Roberge, Jean-Michel

Subjects

TAIGA ecology, STAPHYLINIDAE, ROUND fungus beetles, CURCULIONIDAE, PITFALL traps

Abstract

Management of boreal forests for timber production has caused changes in forest structures and disturbance regimes, which have influenced a wide range of organisms. The aim of this study was to evaluate how composition of epigaeic (ground-living) beetle assemblages is influenced by stand age and management history in a heavily managed boreal forest landscape. We compared the epigaeic assemblages among stands of three ages: (1) young (8–25 years) and (2) middle-aged (40–58 years) stands regrown after clear-cutting, and mature stands (80–130 years) that had been selectively cut historically but never clear felled. We sampled epigaeic beetles in each of 42 stands, using 10 pitfall traps during seven summer weeks. More than 9000 specimens were collected and identified. The assemblages in young stands differed from those in middle-aged and mature stands, both for the Staphylinidae (rove beetles) and all beetle families combined. Carabidae (ground beetles) composition differed between young and middle aged stands only, and assemblages of Curculionidae (weevils, bark beetles and allies) differed between young and mature stands only. Assemblages of Leiodidae (round fungus beetles) had similar composition in all three stand types. Considering all families, young stands generally harbored fewer species and lower abundances compared with middle aged and mature stands. However, the Leiodidae had similar species richness in all three stand types. The lack of differences in assemblage composition, species richness and abundance between middle aged and mature stands suggests that epigaeic beetle assemblages recolonize following clear-felling. However, our collections included large numbers of unique and usually rare species in mature stands, indicating that old forest is important for the conservation of epigaeic beetles. Furthermore, the lower abundance of these beetles in young stands indicates that an increasing proportion of young stands on managed landscapes will reduce the overall abundances of epigaeic beetle species, with potentially negative impacts on recolonization. [ABSTRACT FROM AUTHOR]

Published

2016

28. GM trees with increased resistance to herbivores: trait efficiency and their potential to promote tree growth.

Author

Hjältén, Joakim and Axelsson, E. Petter

Abstract

Climate change, as well as a more intensive forestry, is expected to increase the risk of damage by pests and pathogens on trees, which can already be a severe problem in tree plantations. Recent development of biotechnology theoretically allows for resistance enhancement that could help reduce these risks but we still lack a comprehensive understanding of benefits and tradeoffs with pest resistant GM (genetically modified) trees. We synthesized the current knowledge on the effectiveness of GM forest trees with increased resistance to herbivores. There is ample evidence that induction of exogenous Bacillus thuringiensis genes reduce performance of target pests whereas upregulation of endogenous resistance traits e.g., phenolics, generates variable results. Our review identified very few studies estimating the realized benefits in tree growth of GM trees in the field. This is concerning as the realized benefit with insect resistant GM plants seems to be context-dependent and likely manifested only if herbivore pressure is sufficiently high. Future studies of secondary pest species and resistance evolution in pest to GM trees should be prioritized. But most importantly we need more long-term field tests to evaluate the benefits and risks with pest resistant GM trees. [ABSTRACT FROM AUTHOR]

Published

2015

29. Can Airborne Laser Scanning (ALS) and Forest Estimates Derived from Satellite Images Be Used to Predict Abundance and Species Richness of Birds and Beetles in Boreal Forest?

Author

Lindberg, Eva, Roberge, Jean-Michel, Johansson, Therese, and Hjältén, Joakim

Subjects

REMOTE-sensing images, BEETLES, BIRDS, TAIGAS, LIDAR, GROUND vegetation cover, FOREST biodiversity

Abstract

In managed landscapes, conservation planning requires effective methods to identify high-biodiversity areas. The objective of this study was to evaluate the potential of airborne laser scanning (ALS) and forest estimates derived from satellite images extracted at two spatial scales for predicting the stand-scale abundance and species richness of birds and beetles in a managed boreal forest landscape. Multiple regression models based on forest data from a 50-m radius (i.e., corresponding to a homogenous forest stand) had better explanatory power than those based on a 200-m radius (i.e., including also parts of adjacent stands). Bird abundance and species richness were best explained by the ALS variables "maximum vegetation height" and "vegetation cover between 0.5 and 3 m" (both positive). Flying beetle abundance and species richness, as well as epigaeic (i.e., ground-living) beetle richness were best explained by a model including the ALS variable "maximum vegetation height" (positive) and the satellite-derived variable "proportion of pine" (negative). Epigaeic beetle abundance was best explained by "maximum vegetation height" at 50 m (positive) and "stem volume" at 200 m (positive). Our results show that forest estimates derived from satellite images and ALS data provide complementary information for explaining forest biodiversity patterns. We conclude that these types of remote sensing data may provide an efficient tool for conservation planning in managed boreal landscapes. [ABSTRACT FROM AUTHOR]

Published

2015

30. Wood-Inhabiting Beetles in Low Stumps, High Stumps and Logs on Boreal Clear-Cuts: Implications for Dead Wood Management.

Author

Andersson, Jon, Hjältén, Joakim, and Dynesius, Mats

Subjects

*BEETLES, *BIOMASS energy, *BIOCHEMICAL substrates, *FOREST management, *SAPROXYLIC insects, *NORWAY spruce

Abstract

The increasing demand for biofuels from logging residues require serious attention on the importance of dead wood substrates on clear-cuts for the many forestry-intolerant saproxylic (wood-inhabiting) species. In particular, the emerging harvest of low stumps motivates further study of these substrates. On ten clear-cuts we compared the species richness, abundance and species composition of saproxylic beetles hatching from four to nine year old low stumps, high stumps and logs of Norway spruce. By using emergence traps we collected a total of 2,670 saproxylic beetles among 195 species during the summers of 2006, 2007 and 2009. We found that the species assemblages differed significantly between high stumps and logs all three years. The species assemblages of low stumps, on the other hand, were intermediate to those found in logs and high stumps. There were also significant difference in species richness between the three examined years, and we found significant effect of substrate type on richness of predators and fungivores. As shown in previous studies of low stumps on clear-cuts they can sustain large numbers of different saproxylic beetles, including red-listed species. Our study does, in addition to this fact, highlight a possible problem in creating just one type of substrate as a tool for conservation in forestry. Species assemblages in high stumps did not differ significantly from those found in low stumps. Instead logs, which constitute a scarcer substrate type on clear-cuts, provided habitat for a more distinct assemblage of saproxylic species than high stumps. It can therefore be questioned whether high stumps are an optimal tool for nature conservation in clear-cutting forestry. Our results also indicate that low stumps constitute an equally important substrate as high stumps and logs, and we therefore suggest that stump harvesting is done after carefully evaluating measures to provide habitat for saproxylic organisms. [ABSTRACT FROM AUTHOR]

Published

2015

31. Natural Versus National Boundaries: the Importance of Considering Biogeographical Patterns in Forest Conservation Policy.

Author

Gustafsson, Lena, Felton, Adam, Felton, Annika M., Brunet, Jörg, Caruso, Alexandro, Hjältén, Joakim, Lindbladh, Matts, Ranius, Thomas, Roberge, Jean‐Michel, and Weslien, Jan

Subjects

FORESTS & forestry, FOREST reserves, BIODIVERSITY, FOREST conservation, GEOGRAPHIC boundaries

Abstract

Applying biogeographical insights to the regulation of production forestry and the determination of forest reserve strategies is expected to increase the effectiveness of biodiversity conservation actions. Here, we assess the extent to which such applications take place. By using Sweden as a case study, we demonstrate fundamental differences among biogeographical regions in natural patterns and processes, past land-use, and anthropogenic impacts that need to be better incorporated into strategic conservation planning and decisions. Furthermore, assessment of specific forestry regulations and biogeographical variation in a number of other countries/provinces embracing boreal and temperate biomes also indicate that natural boundaries are insufficiently considered in forest management policies. We suggest that a substantial potential exists to better align conservation priorities with biogeographical characteristics. To illustrate the application of such an approach, we present a decision support model on how forest conservation policies that rest on natural boundaries and ecological processes can be developed. [ABSTRACT FROM AUTHOR]

Published

2015

32. Moving towards multi-layered, mixed-species forests in riparian buffers will enhance their long-term function in boreal landscapes.

Author

Maher Hasselquist, Eliza, Kuglerová, Lenka, Sjögren, Jörgen, Hjältén, Joakim, Ring, Eva, Sponseller, Ryan A., Andersson, Elisabet, Lundström, Johanna, Mancheva, Irina, Nordin, Annika, and Laudon, Hjalmar

Subjects

RIPARIAN forests, FOREST management, DECIDUOUS forests, BUFFER zones (Ecosystem management), RIPARIAN areas, STREAM function, AQUATIC biodiversity, FOREST biodiversity

Abstract

• Forest management has promoted conifers and altered stream and riparian function. • We suggest delineating and managing riparian buffers throughout the rotation cycle. • Make multi-layered, mixed-species forests with more deciduous species the goal. • Riparian zones will provide functions throughout the rotation, not just at final-felling. Riparian buffers are the primary tool in forest management for protecting the habitat structure and function of streams. They help protect against biogeochemical perturbation, filter sediments and nutrients, prevent erosion, contribute food to aquatic organisms, regulate light and hence water temperature, contribute deadwood, and preserve biodiversity. However, in production forests of Sweden and Finland, many headwater streams have been straightened, ditched, and/or channelized, resulting in altered hydrology and reduced natural disturbance by floods, which in turn affects important riparian functions. Furthermore, in even-aged management systems as practiced in much of Fennoscandia, understory trees have usually been cleared right up to the stream's edge during thinning operations, especially around small, headwater streams. Fire suppression has further favored succession towards shade tolerant species. In the regions within Fennoscandia that have experienced this combination of intensive management and lack of natural disturbance, riparian zones are now dominated by single-storied, native Norway spruce. When the adjacent forest is cut, thin (5 - 15m) conifer-dominated riparian buffers are typically left. These buffers do not provide the protection and subsidies, in terms of leaf litter quality, needed to maintain water quality or support riparian or aquatic biodiversity. Based on a literature review, we found compelling evidence that the ecological benefits of multi-layered, mixed-species riparian forest with a large component of broadleaved species are higher than what is now commonly found in the managed stands of Fennoscandia. To improve the functionality of riparian zones, and hence the protection of streams in managed forest landscapes, we present some basic principles that could be used to enhance the ecological function of these interfaces. These management actions should be prioritized on streams and streamside stands that have been affected by simplification either through forest management or hydrological modification. Key to these principles is the planning and managing of buffer zones as early as possible in the rotation to ensure improved function throughout the rotation cycle and not only at final felling. This is well in line with EU and national legislation which can be interpreted as requiring landscape planning at all forest ages to meet biodiversity and other environmental goals. However, it is still rare that planning for conservation is done other than at the final felling stage. Implementing this new strategy is likely to have long-term positive effects and improve the protection of surface waters from negative forestry effects and a history of fire suppression. By following these suggested management principles, there will be a longer time period with high function and greater future management flexibility in addition to the benefits provided by leaving riparian buffers at the final felling stage. [ABSTRACT FROM AUTHOR]

Published

2021

33. Cost Analysis of a Novel Method for Ecological Compensation—A Study of the Translocation of Dead Wood.

Author

Lindroos, Ola, Söderlind, Malin, Jensen, Joel, and Hjältén, Joakim

Abstract

Translocation of dead wood is a novel method for ecological compensation and restoration that could, potentially, provide a new important tool for biodiversity conservation. With this method, substrates that normally have long delivery times are instantly created in a compensation area, and ideally many of the associated dead wood dwelling organisms are translocated together with the substrates. However, to a large extent, there is a lack of knowledge about the cost efficiency of different methods of ecological compensation. Therefore, the costs for different parts of a translocation process and its dependency on some influencing factors were studied. The observed cost was 465 SEK per translocated log for the actual compensation measure, with an additional 349 SEK/log for work to enable evaluation of the translocation's ecological results. Based on time studies, models were developed to predict required work time and costs for different transportation distances and load sizes. Those models indicated that short extraction and insertion distances for logs should be prioritized over road transportation distances to minimize costs. They also highlighted a trade-off between costs and time until a given ecological value is reached in the compensation area. The methodology used can contribute to more cost-efficient operations and, by doing so, increase the use of ecological compensation and the benefits from a given input. [ABSTRACT FROM AUTHOR]

Published

2021

34. Bryophyte species composition at the stand scale (1 ha) – Differences between secondary stands half a century after clear-cutting and older semi-natural boreal forests.

Author

Dynesius, Mats, Olsson, Jörgen, Hjältén, Joakim, Löfroth, Therese, and Roberge, Jean-Michel

Subjects

TAIGAS, CLEARCUTTING, DEAD trees, NUMBERS of species, BRYOPHYTES, SPECIES

Abstract

• Boreal forest clear-cutting change species composition of mosses and liverworts. • After half a century both cover and occupancy are changed in 1-ha secondary stands. • Species thriving in shade and on living or dead trees are still fewer. • Current habitat factors explain much of the remaining differences. • Species losses can be mitigated by providing shade and tree substrates. A growing proportion of the boreal biome consists of managed even-aged secondary forest stands regenerated after clear-cutting. Many disturbance-intolerant species may not be able to recolonize or reach their original abundance in these stands before the next clear-cutting, potentially causing large-scale biodiversity losses. Boreal bryophytes (mosses and liverworts) include many species intolerant to clear-cutting, and at small spatial scales species richness and occupancy has been shown to remain changed in secondary stands half a century after logging. To assess if such persistent changes occur also at the stand scale, we listed and estimated cover of all bryophyte species in 1-ha plots, comparing 14 secondary stands originating from clear-cutting 40–60 years earlier with 14 older semi-natural stands. The large plots also made it possible to assess differences in occupancy and abundance for more bryophyte species than in previous studies. Species composition differed significantly for both mosses and liverworts, but unlike earlier studies, we could not detect any significant difference between stand types in species numbers. Thirteen species were significantly associated with semi-natural stands and the total cover of liverworts was less than half in secondary stands. Secondary stands had significantly fewer species typically occurring under shady conditions and/or mostly growing on "tree substrates" (dead wood and/or bases and stems of living trees). Ordination analysis further emphasized the importance of shade and suitable deadwood substrates; the among-plot variation in bryophyte species composition was related to amount of coarse deadwood as well as to gradients from shady spruce dominated to open pine dominated stands and from polar- to equator-facing slopes. Besides lack of suitable habitat conditions in secondary stands, dispersal limitation may have caused a colonization time lag for some species. The clear importance of stand scale habitat conditions for bryophyte species composition calls for management adaptions to facilitate life boating and/or recolonization by ensuring availability of shade, coarse decomposing logs, and specific deciduous tree species (Populus , Salix , Sorbus) in secondary stands. [ABSTRACT FROM AUTHOR]

Published

2021

35. Comparing the effects of even-aged thinning and selective felling on boreal forest birds.

Author

Versluijs, Martijn, Hekkala, Anne-Maarit, Lindberg, Eva, Lämås, Tomas, and Hjältén, Joakim

Subjects

TAIGAS, FOREST birds, FOREST management, GREAT tit, FORESTS & forestry, BIRD populations

Abstract

• Even-aged silviculture (thinning) vs uneven-aged silviculture (selective felling) • Species richness did not differ between management type. • Thinned stands supported different bird assemblages than selectively felled stands. • Independent of management type, time since treatment effect assemblage structures. Biodiversity is in decline and therefore alternative forest management approaches have gained interest. One of such approaches is uneven-aged silviculture, which has been suggested to better maintain mature or late-successional forest characteristics and species assemblages than even-aged silviculture. Therefore, it is assumed that uneven-aged silviculture can be a useful tool for landscape planning to benefit biodiversity. Nevertheless, there is a lack of empirical studies regarding bird responses to uneven-aged silviculture in north European boreal ecosystems. Here we test the similarity of bird assemblage structure between mature forests within even-aged silviculture ('thinning') and uneven-aged silviculture ('selective felling'). In spring 2018 we censused breeding birds using territory mapping in 14 thinned stands and 14 selectively felled stands. We found higher abundance and different bird assemblages in thinned stands compared to selectively felled stands. The pied flycatcher, tree pipit and great tit contributed most to the variation of bird assemblages between the two management types. None of the species were more abundant in selectively felled than in thinned stands. According to functional guilds, the abundance of ground breeders, ground feeders and generalists was higher in thinned stands than in selectively felled stands, similar results were found in the species richness of long-distance migrants, ground nesters, secondary cavity nesters and generalists. Independent of management type, time since treatment had an overall effect on assemblage structures, the mistle thrush and wren were negatively correlated with time since treatment, while the chiffchaff showed the opposite trend. Our results suggest that at these locations and given this particular type of uneven-age management, selective felling is less suitable for some abundant generalists than even-aged forest stands reaching the thinning age. However, the results from this study does not provide clear management recommendations aiming to maintain biodiversity, as management guidelines should be based on red-listed species and not on common generalists. Nevertheless, our results stresses the urgent need for more long-term studies comparing the effect of these different silvicultural strategies on bird assemblages. [ABSTRACT FROM AUTHOR]

Published

2020

36. Restoration measures emulating natural disturbances alter beetle assemblages in boreal forest.

Author

Hägglund, Ruaridh, Dynesius, Mats, Löfroth, Therese, Olsson, Jörgen, Roberge, Jean-Michel, and Hjältén, Joakim

Subjects

TAIGAS, TAIGA ecology, SPECIES diversity, RESTORATION ecology, BEETLES, FOREST fires, BIODIVERSITY

Abstract

• Burning increased species richness of beetles compared to gap-cut and reference stands. • Species composition differed significantly between all three groups of stands. • Most species benefitting from burning are fire dependent/favored species. • Gap cutting maintained pre-treatment beetle assemblages but benefitted e.g., cambivores. • Both restoration methods are complementary to e.g., free development set-asides. Accelerating declines in biodiversity worldwide have accentuated the need for conservation actions. Unfortunately, the decline is unlikely to be reversed by traditional conservation alone, e.g., green tree retention at clear-felling and setting aside protected areas for free development. Instead the practice of ecological restoration has come to play an ever increasing role. Using a before-after control-impact experiment in boreal forest voluntary set-asides, we evaluated the usefulness of two methods of ecological restoration aimed at promoting biodiversity by emulating natural disturbances through restoration burning and artificial gap creation involving dead wood creation. In burned stands (n = 6) we removed up to 35% of the standing volume prior to burning, and in gap cut stands (n = 10) we removed the cut trees from every second gap; harvested trees covered costs for restoration. We used saproxylic and non-saproxylic beetles as a proxy for biodiversity to evaluate the two restoration methods. We compared species compositions of beetles collected with window traps one year before and one year after treatment. In addition, we compared catches in the treatments with those in untreated reference stands. Before treatment, we found no differences between the three groups of stands in terms of overall abundance, species richness or species composition. After treatment, the overall abundance of beetles was higher in the burned sites compared to the reference stands. Overall species richness was higher in burned stands compared to references and gap-cut stands. Gap-cut stands had higher species richness of cambivores and fire favoured species than reference stands. Species composition differed significantly between all three groups of stands. Among the 96 species that significantly contributed to the differences in species composition, 58 were more common in burned stands and 34 more common in gap-cut stands than in the other two stand groups. Nineteen of the 96 species are considered to be favored by forest fires, and 17 of these fire-favored species were more abundant in burned stands than gap-cut stands and/or references. Based on our results that burning and gap-cutting changed the beetle communities in partly different directions, we propose the use of both methods as complements to traditional conservation efforts in future attempts to improve conditions for biodiversity in managed boreal forest landscapes. [ABSTRACT FROM AUTHOR]

Published

2020

37. Simulating Long-Term Effects of Bioenergy Extraction on Dead Wood Availability at a Landscape Scale in Sweden.

Author

Hof, Anouschka R., Löfroth, Therese, Rudolphi, Jörgen, Work, Timothy, and Hjältén, Joakim

Subjects

WOOD, BIOMASS energy, FOREST biodiversity, SAPROXYLIC insects, HABITATS, TAIGAS, FOSSIL fuels, FORESTS & forestry

Abstract

Wood bioenergy may decrease the reliance on fossil carbon and mitigate anticipated increases in temperature. However, increased use of wood bioenergy may have large impacts on forest biodiversity primarily through the loss of dead wood habitats. We evaluated both the large-scale and long-term effects of different bioenergy extraction scenarios on the availability of dead wood and the suitability of the resulting habitat for saproxylic species, using a spatially explicit forest landscape simulation framework applied in the Swedish boreal forest. We demonstrate that bioenergy extraction scenarios, differing in the level of removal of biomass, can have significant effects on dead wood volumes. Although all of the scenarios led to decreasing levels of dead wood, the scenario aimed at species conservation led to highest volumes of dead wood (about 10 m3 ha−1) and highest connectivity of dead wood patches (mean proximity index of 78), whilst the scenario aimed at reaching zero fossil fuel targets led to the lowest levels (about 8 m3 ha−1) and least connectivity (mean proximity index of 7). Our simulations stress that further exploitation of dead wood from sites where volumes are already below suggested habitat thresholds for saproxylic species will very likely have further negative effects on dead wood dependent species. [ABSTRACT FROM AUTHOR]

Published

2018

38. Soil humidity, potential solar radiation and altitude affect boreal beetle assemblages in dead wood.

Author

Johansson, Therese, Gibb, Heloise, Hjältén, Joakim, and Dynesius, Mats

Subjects

*SOIL moisture, *HUMIDITY, *SOLAR radiation, *BEETLES, *SAPROXYLIC insects, *BIODIVERSITY

Abstract

Topographic heterogeneity causes gradients in altitude, potential solar radiation and soil humidity on a range of scales from micro- to macro-habitat. These gradients are important determinants for the distribution of many organisms but have been largely neglected in studies of species associated with dead wood, a group of great conservation concern. In this study, we evaluated the effects of topography-related gradients (altitude, potential solar radiation and soil humidity) and habitat characteristics (bark cover, ground contact and dead wood volume) on saproxylic (wood-inhabiting) beetle assemblages. We sampled boreal saproxylic beetles hatching from 750 experimentally exposed spruce and birch logs in a regional scale field experiment including 10 landscapes and spanning gradients of altitude (range 85–510 m asl), potential solar radiation (based on slope and slope aspect and highest in equator-facing slopes, PADIR, range 0.24–0.71) and soil humidity (humidity index, range 2.3–3.1). The logs were placed in north Swedish forests and clear-cuts and beetles were sampled with emergence traps the 4th summer after the logs were introduced. Saproxylic assemblage composition varied considerably in response to altitude, potential solar radiation and soil humidity. The response was evident in both forests and clear-cuts and for both birch and spruce logs. Species density and abundance responses differed among trophic groups. For birch logs, fungivore species density increased significantly with increased potential solar radiation. For spruce logs, altitude affected total species density and density of cambium consumers positively and abundance of fungivores negatively, suggesting a delay in succession due to slower decomposition at higher altitudes. In addition to the topography-related gradients, ground contact and bark cover of logs as well as the availability of dead wood in the vicinity influenced the beetle assemblages. Our results clearly show that topography-related gradients affect assemblage composition of saproxylic beetles. These factors should be considered in the management of saproxylic biodiversity. To ensure the safeguarding of intact saproxylic assemblages it is important that the full range of dead wood habitats is conserved. Topographic heterogeneity may provide opportunities for landscape scale survival in response to rapid climate change but there is also a risk that some niches will disappear. Some of the negative effects of climate change could be mitigated by allocating set asides and restoration efforts in areas where gradient in altitude, solar radiation and soil humidity are particularly well developed over short distances. [ABSTRACT FROM AUTHOR]

Published

2017