Roads, forestry, and wolves interact to drive moose browsing behavior in Scandinavia

As wild ungulate densities increase across Europe and North America, plant-herbivore interactions are increasingly important from ecological and economic perspectives. These interactions are particularly significant where agriculture and forestry occur and where intensive grazing and browsing by wild ungulates can result in economic losses to growing crops and trees. We studied plant-herbivore interactions in a moose (Alces alces)-dominant system where forestry is a primary economy, the primary and secondary road networks are extensive, and wolves (Canis lupus) are recolonizing. Wolves and humans use low-traffic, secondary roads, yet roadsides provide high-quality and quantity browse for moose. Foraging theory predicts that moose will respond to riskier landscapes by selecting habitats that reduce predation risk, sacrificing feeding time or food quality. As food becomes limiting, however, animals will accept higher predation risk in search of food. We predicted that road avoidance behavior would be strongest within wolf territories. In areas without wolves, moose should select roadsides for their high forage availability. To test these predictions, we measured moose browsing and counted pellet groups as a proxy for habitat use each spring in Norway and Sweden between 2008 and 2018, in areas with and without wolves and at different distances from primary and secondary roads. We used generalized linear mixed models to evaluate drivers of the probability of browsing occurrence and browsing pressure. We found that browsing occurrence increased closer to secondary roads but decreased closer to primary roads. We also found browsing patterns to vary among tree species. For Scots pine (Pinus sylvestris), the browsing occurrence was two times higher in young forests relative to non-young forests and decreased further from secondary roads. Wolf territory presence and probability had neutral or positive effect on browsing occurrence and pressure for all species. However, wolf territory presence had negative effects on browsing occurrence and pressure when interacting with secondary roads, young forest, or snow cover. We showed that roads can influence browsing patterns in Norway and Sweden. However, further research is needed, particularly in the face of continued infrastructure development in Scandinavia

Elgvandringer i grenseland med følger for skogbruk, jakt og rovdyr

Forvaltning av elg i områder med en delvis trekkende elgbestand byr på utfordringer, fordi kostnadene i form av beiteskader på skogen og goder i form av elgjakt ofte berører forskjellige grunneiere. Dette blir ytterligere komplisert når elgtrekket går på tvers av forvaltningsinndelinger eller til og med over riksgrensen. GRENSEVILT har studert samspillet mellom elg, ulv, skogbruk og jakt i nordre Finnskogen, et stort barskogsområde som er delt av riksgrensen. For å berenge størrelsenpå elgbestanden og beskrive den romlige fordelingen av elg for vintrene 2019/20 og 2020/21, samt somrene 2020 og 2021,har vi gjennomført elgmøkktellinger over et areal på mer enn 3500 km2. Vi ønsket også å studere hvordan elgtrekket påvirker ulvens områdebruk, beitepå furu, og jaktuttaket. Derfor har vived hjelp av GPS-halsbånd analysert områdebruken til fire ulveflokker i samme område. Dessuten gjennomførte vi på våren 2021 en stor beitetakst som kombinerte den norke Solbraa-og den svenske Äbin-metoden. Til slutt har vi sammenstilt jaktdata fra norske vald og svenske älgjaktområder for jaktårene 2019/20 og 2020/21.Vi beregnet elgens tetthet for tidsserien vinter 2019/20, sommer 2020, vinter 2020/21, og sommer 2021 til henholdsvis 1,18, 1,37, 1,01, og 1,70dyr/km2. Om sommeren var elgen noksåjevnt fordelt over hele studieområdet, og om vinteren stod elgen mer konsentrert i de snøfattige områdene, mens det var lite elgi de nordlige, snørike områdene. Til tross for at elgens fordeling endret seg mellom sommer og vinter, opprettholdt ulveflokkene de samme revirgrensene gjennom hele året. Derimot tilpasset de sine aktivitetsområder innenfor revirgrensene til endringen i elgfordelingen. Elgens vinterkonsentrasjonsområder var kjennetegnet ved et større beitetrykk på furu. Skader på produksjontrær var mest hyppig langs dalbunnen og i områder med mye lauvkratt, men vi fant ikke noe tydelig sammenheng mellom skadegrad og elgens vinterfordeling. Elgens effekt på skogbruk målt med den norske Solbraa-metoden viste at beitegraden på furu var stort sett liten. Den svenske Äbin-metoden tegnet et helt motsatt bilde, og bedømmetskadegraden på de samme prøveflatenesomsvært alvorlig. Jaktuttaket i jaktområdene gjenspeilet fordelingen av elg sommerstid i Norge, men ikke i Sverige, der det ble skutt mest elg i områdene med lavest sommertetthet. De hardest beskattede jaktområdene i Sverige hadde en lavere elgtetthet vinteren etter jakt. Vi fant ikke noensammenheng mellom beite-eller skadegrad på furu og jaktuttak i jaktområdene. I den østlige delen av studieområdet som har et stort innslag av trekkelg som oppholder seg på norsk side på sommeren og under jakta, men trekker til Sverige når snøen hoper seg opp lenger nord, var det en tydelig mismatch i forvaltningen av elg mellom de to landene. Mens man i Sverige satset på et høyt jaktuttak for å få bukt med beiteskader,og i tillegg beskattet trekkelg ved januarjakt,sparte man på avskytingen på norsk side fordi beitegraden ikke var bekymringverdigog elgens sommerbestand også ble utsatt for ulvens uttak i tillegg til vinterjakt på svensk side .Vi foreslår en bedre samordning av elgforvaltningen på tvers av riksgrensen. Det krever dialog og samarbeid mellom rettighetshaverne. Et felles elgforvaltningsområde som strekker seg over grensen og dekker trekkelgens helårsområde hadde gjort et slikt samarbeid enklere. Dessuten foreslår vi en samordning av beitetakstmetoden og en felles trafikklysmodell som baserer seg på tetthet av uskadde produksjonstrær heller enn beite-eller skadegraden

Ungulate-adapted forestry shows promise for alleviating pine browsing damage

High densities of ungulates can increase human-wildlife conflicts. Where forestry is an important economy, intensive browsing can lead to browsing damage, resulting in volume losses, poor stand regeneration, and reduced timber quality. The forestry industry thus looks for practical, long-term measures to mitigate browsing damage. We tested the effect of two mitigation measures on moose (Alces alces) browsing behaviour and damage to Scots pine (Pinus sylvetris): (1) ungulate-adapted slash piles (i.e., palatable species only) created during felling to increase short-term food availability and (2) intensified soil scarification to increase long-term food availability (collectively, 'ungulate-adapted forestry'). Our study occurred in southern Norway where we established fixed vegetation and moose faecal pellet plots at varying distances from conventional and ungulate-adapted slash piles and scarified stands. We evaluated the effects of ungulate-adapted slash piles and intensified scarification on the density of undamaged Scots pine, moose bite diameters, browsing pressure, and moose faecal pellet density. To assess the effect of spatial scale, we created 250 m, 500 m, and 1000-m radius buffers centered on each plot. We found that ungulate-adapted logging near our plots increased the density of undamaged pines, as compared to no and conventional logging. We found that logging in general led to smaller bite diameters. We also found that plots near conventional logging had higher browsing pressure, whereas browsing pressure near ungulate-adapted logging was similar to unlogged stands. For scarification, density of undamaged pine increased when the ungulate-adapted stand aged whereas undamaged pine decreased as conventional scarification stands aged. Browsing pressure showed a response at the smallest spatial scale only for ungulate-adapted scarification. Peak moose habitat use near conventional and ungulate-adapted scarified stands differed by stand age and distance from scarification. The overall effects of ungulate-adapted forestry were most pronounced at the smallest spatial scale (250 m). Our results support 'ungulate-adapted' forestry as a practical solution to mitigate browsing damage but uncertainty in some of our estimates suggest further research on the area treated is needed

The smell of success: Reproductive success related to rub behavior in brown bears.

Several species of bears are known to rub deliberately against trees and other objects, but little is known about why bears rub. Patterns in rubbing behavior of male and female brown bears (Ursus arctos) suggest that scent marking via rubbing functions to communicate among potential mates or competitors. Using DNA from bear hairs collected from rub objects in southwestern Alberta from 2011-2014 and existing DNA datasets from Montana and southeastern British Columbia, we determined sex and individual identity of each bear detected. Using these data, we completed a parentage analysis. From the parentage analysis and detection data, we determined the number of offspring, mates, unique rub objects where an individual was detected, and sampling occasions during which an individual was detected for each brown bear identified through our sampling methods. Using a Poisson regression, we found a positive relationship between bear rubbing behavior and reproductive success; both male and female bears with a greater number of mates and a greater number of offspring were detected at more rub objects and during more occasions. Our results suggest a fitness component to bear rubbing, indicate that rubbing is adaptive, and provide insight into a poorly understood behaviour

Ungulate-adapted forestry shows promise for alleviating pine browsing damage

High densities of ungulates can increase human-wildlife conflicts. Where forestry is an important economy, intensive browsing can lead to browsing damage, resulting in volume losses, poor stand regeneration, and reduced timber quality. The forestry industry thus looks for practical, long-term measures to mitigate browsing damage. We tested the effect of two mitigation measures on moose (Alces alces) browsing behaviour and damage to Scots pine (Pinus sylvetris): (1) ungulate-adapted slash piles (i.e., palatable species only) created during felling to increase short-term food availability and (2) intensified soil scarification to increase long-term food availability (collectively, ‘ungulate-adapted forestry’). Our study occurred in southern Norway where we established fixed vegetation and moose faecal pellet plots at varying distances from conventional and ungulate-adapted slash piles and scarified stands. We evaluated the effects of ungulate-adapted slash piles and intensified scarification on the density of undamaged Scots pine, moose bite diameters, browsing pressure, and moose faecal pellet density. To assess the effect of spatial scale, we created 250 m, 500 m, and 1000-m radius buffers centered on each plot. We found that ungulate-adapted logging near our plots increased the density of undamaged pines, as compared to no and conventional logging. We found that logging in general led to smaller bite diameters. We also found that plots near conventional logging had higher browsing pressure, whereas browsing pressure near ungulate-adapted logging was similar to unlogged stands. For scarification, density of undamaged pine increased when the ungulate-adapted stand aged whereas undamaged pine decreased as conventional scarification stands aged. Browsing pressure showed a response at the smallest spatial scale only for ungulate-adapted scarification. Peak moose habitat use near conventional and ungulate-adapted scarified stands differed by stand age and distance from scarification. The overall effects of ungulate-adapted forestry were most pronounced at the smallest spatial scale (250 m). Our results support ‘ungulate-adapted’ forestry as a practical solution to mitigate browsing damage but uncertainty in some of our estimates suggest further research on the area treated is needed

Ungulate-adapted forestry shows promise for alleviating pine browsing damage

High densities of ungulates can increase human-wildlife conflicts. Where forestry is an important economy, intensive browsing can lead to browsing damage, resulting in volume losses, poor stand regeneration, and reduced timber quality. The forestry industry thus looks for practical, long-term measures to mitigate browsing damage. We tested the effect of two mitigation measures on moose (Alces alces) browsing behaviour and damage to Scots pine (Pinus sylvetris): (1) ungulate-adapted slash piles (i.e., palatable species only) created during felling to increase short-term food availability and (2) intensified soil scarification to increase long-term food availability (collectively, ‘ungulate-adapted forestry’). Our study occurred in southern Norway where we established fixed vegetation and moose faecal pellet plots at varying distances from conventional and ungulate-adapted slash piles and scarified stands. We evaluated the effects of ungulate-adapted slash piles and intensified scarification on the density of undamaged Scots pine, moose bite diameters, browsing pressure, and moose faecal pellet density. To assess the effect of spatial scale, we created 250 m, 500 m, and 1000-m radius buffers centered on each plot. We found that ungulate-adapted logging near our plots increased the density of undamaged pines, as compared to no and conventional logging. We found that logging in general led to smaller bite diameters. We also found that plots near conventional logging had higher browsing pressure, whereas browsing pressure near ungulate-adapted logging was similar to unlogged stands. For scarification, density of undamaged pine increased when the ungulate-adapted stand aged whereas undamaged pine decreased as conventional scarification stands aged. Browsing pressure showed a response at the smallest spatial scale only for ungulate-adapted scarification. Peak moose habitat use near conventional and ungulate-adapted scarified stands differed by stand age and distance from scarification. The overall effects of ungulate-adapted forestry were most pronounced at the smallest spatial scale (250 m). Our results support ‘ungulate-adapted’ forestry as a practical solution to mitigate browsing damage but uncertainty in some of our estimates suggest further research on the area treated is needed

JNK signaling prevents biliary cyst formation through a CASPASE-8-dependent function of RIPK1 during aging

The c-Jun N-terminal kinase (JNK) signaling pathway mediates adaptation to stress signals and has been associated with cell death, cell proliferation, and malignant transformation in the liver. However, up to now, its function was experimentally studied mainly in young mice. By generating mice with combined conditional ablation of Jnk1 and Jnk2 in liver parenchymal cells (LPCs) (JNK1/2$^{LPC-KO}$ mice; KO, knockout), we unraveled a function of the JNK pathway in the regulation of liver homeostasis during aging. Aging JNK1/2$^{LPC-KO}$ mice spontaneously developed large biliary cysts that originated from the biliary cell compartment. Mechanistically, we could show that cyst formation in livers of JNK1/2$^{LPC-KO}$ mice was dependent on receptor-interacting protein kinase 1 (RIPK1), a known regulator of cell survival, apoptosis, and necroptosis. In line with this, we showed that RIPK1 was overexpressed in the human cyst epithelium of a subset of patients with polycystic liver disease. Collectively, these data reveal a functional interaction between JNK signaling and RIPK1 in age-related progressive cyst development. Thus, they provide a functional linkage between stress adaptation and programmed cell death (PCD) in the maintenance of liver homeostasis during aging