Direct seeding for restoration of mixed oak forests: Influence of distance to forest edge, predator-derived repellent and acorn size on seed removal by granivorous rodents

Adrian Villalobos,Fredrik Schlyter,Gert Olsson,Johanna Witzell,Magnus Löf

doi:10.1016/j.foreco.2020.118484

Adrian Villalobos, Fredrik Schlyter + Show 3 more

Open Access

https://doi.org/10.1016/j.foreco.2020.118484

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Abstract

Restoration of mixed oak forest in northern temperate regions is important for biodiversity and for adaptation of forest management to climate change. Direct seeding has been considered as a cost-effective method for the assisted regeneration of oaks. However, removal of acorns by granivorous rodents hinders its application. Patterns of acorn removal can vary with habitat type, presence of predators, and acorn size. In this field study, we tested the effects of distance to forest edge, predator excrement as a repellent, and acorn size on the performance of direct-seeded oak in southern Sweden. The experiment was carried out at two different sites. Our hypotheses were: (i) in clear-cuts, acorn removal is higher closer to the forest edge compared to open areas, (ii) treatment with predator excrement reduces acorn removal without affecting germination, and (iii) larger acorns will be removed more readily than smaller acorns. Finally, we also investigated if seedlings from larger acorns survive better and grow taller compared to smaller acorns in relation to habitat structure and predator excrement as repellent. Acorn removal differed at the two sites. At Skrylle (older clear-cut), no forest edge effects were found. At Klåveröd (new clear-cut site), our results suggest that removal of acorns was higher in the open clear-cut due to the presence of large slash piles. Less vegetation coverage correlated with lower rates of acorn removal, except near slash piles. Our results therefore suggest that forest managers should reduce understory vegetation and avoid slash piles during direct seeding of oak. Mink excrement failed to protect acorns against removal, but did not reduce acorn germination. Bigger acorns produced taller seedlings but did not enhance overall woodland establishment due to their higher removal rate. Our results further suggest a potential food satiation effect due to an extra supply of additional food. Satiation manipulation might potentially be a method of mitigating the impact of seed predation by granivorous rodents during the direct seeding of oak, but such an approach requires further research before it could be recommended.

Highlights

Previous land-use policies have transformed forest landscapes in many parts of Europe into conifer monocultures, mainly of Norway spruce (Picea abies (L.) Karst.) and Scots pine (Pinus sylvestris L.) (Zerbe, 2002)
Acorn removal In Skrylle, there were no effects of habitat or repellent alone as indicated by the hazard ratio on the probability of acorns removed, but the significance of the factor size with a hazard ratio of 1.68 indicates a relationship between acorn size and an in creased risk of acorn removal
The probability of acorn removal increased by ca. 60% when treated with repellent as compared to the control (25% of removal probability), but this effect was only significant near the forest edge (Fig. 2, Table A.1, Table A.2)

Summary

Introduction

Previous land-use policies have transformed forest landscapes in many parts of Europe into conifer monocultures, mainly of Norway spruce (Picea abies (L.) Karst.) and Scots pine (Pinus sylvestris L.) (Zerbe, 2002). These forests have proven vulnerable to biotic and biotic dis turbances which are worsened by climate change and threaten the provisioning of forest ecosystem services (Hanewinkel et al, 2013). An increasing proportion of oaks, as pure stands or in mixed forests, could help meet these challenges (Löf et al, 2010; Mette et al, 2013).

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