Your search keyword '"Loosen, Anne"' showing total 3 results

1. Spatial ecology of moose (Alces alces) in a dynamic world

Author

Loosen, Anne Elizabeth

Subjects

Wolf, Alces alces, Climate, Quantitative Method, Wildlife Management, Moose, Forestry, VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Økologi: 488, Habitat, elg, ulv, kvantitativ metode, klima, Foraging, Human-Wildlife Conflict, Boreal, Ungulate

Abstract

Denne avhandlingen tar for seg noen av de viktigste utfordringene for hovdyrforvaltning i det 21. århundre: arealbruk som bidrar til økt fôrproduksjon, rekolonisering av naturlige predatorer, klimaendringer og utfordringer ved overvåkning av bestander som beveger seg over store områder. Mer spesifikt så har jeg fokusert på beiteøkologi og variasjoner I habitatbruk i tid og rom hos elg (Alces alces), vår største herbivor med sirkumboreal utbredelse. Problemstillingene i avhandlingen var å 1) evaluere hvordan områder med høy predasjonsrisiko, som innenfor ulverevir og nær veier, påvirker beitetrykk fra elg, i tråd med teorier om «fryktens landskap»; 2) evaluere om elgtilpasset skogbruk kan brukes til å redusere konflikter rundt beiteskader; 3) evaluere variasjonen i elgens bruk av ulike områder med varierende vintre over en nord-sør gradient; 4) evaluere kilder til usikkerhet og feil I overvåkningsmetoder av hjortevilt og faktorer som påvirker oppdagbarhet. Jeg brukte data på beitetrykk og møkktellinger samlet inn i felt i en gradient fra nord til sør i Norge og Sverige, til å svare på disse problemstillingene. Jeg fant at små og store veier var en viktig faktor for å forklare variasjon i elgens beiteøkologi i boreale skoglandskaper, og veier hadde større effekt enn tilstedeværelse av ulv. Sannsynligheten for at elgen beitet nær skogsbilveier, var nesten dobbelt så høy i ungskog, sammenlignet med skogtyper som var eldre eller yngre enn 5-20 år. Et økt beitetrykk nær skogsbilveier kan forverre konflikten rundt beiteskader. Jeg fant også lovende tendenser til at elgtilpasset avvirkning (tilrettelegging av hogstavfall) kan redusere beiteskader. Men her er det også behov for studier over lenger tid. Jeg fant at snødybde og vintertemperatur påvirket elgens brukt av ulike områder, elgen brukte områder med lav temperatur mer enn områder med høy temperatur (over 0°C) om vinteren. Jeg fant også at lav oppdagbarhet under elgmøkktellinger, og forskjeller mellom frivillige observatører, kan underestimere tetthet av elg. I denne avhandlingen har jeg vist viktigheten av menneskelig forstyrrelser, at menneskelig arealbruk påvirker fôrtilgangen til hjortevilt, og at milde vintre kan påvirke de sørlig og nordlige elgbestandene i Skandinavia ulikt. Jeg har også vist at det er betydelig usikkerhet I overvåkningsdata, og foreslår løsninger for å håndtere observasjonsfeil som kan bidra til å forbedre overvåkingen i fremtiden. Abstract This thesis focuses on some of the primary challenges to ungulate management in the 21st century: multiple land uses that provide food subsidies, predator recolonization, climate change, and challenges researchers and managers are faced with when monitoring population trends of wide-ranging animals. Specifically, I focus on the feeding ecology and spatial and temporal patterns of the largest circumboreal herbivore, the moose (Alces alces). The thesis objectives were to: 1) evaluate how browsing was influenced in areas with high predation risk, such as where wolves (Canis lupus) are present and areas close to roads, in accordance with a landscape of fear; 2) evaluate if ungulate-adapted forestry can be a humanwildlife conflict mitigation measure to reduce browsing damage; 3) evaluate if there was variation in the intensity of use of moose, in response to variable winters and across a large latitudinal gradient; 4) evaluate sources of error associated with a common deer monitoring method. To meet these objectives, I used field-collected data across a latitudinal gradient in Norway and Sweden, primarily via browsing data and fecal pellet group counts. I found roads were a major driver of moose browsing ecology within the boreal forest landscape, with seemingly greater effects than wolf occurrence alone. Browsing occurrence was nearly double in young forests along low-traffic roadsides, relative to forests older and young than 5–20 years. This represents an increased browsing risk that could exacerbate the moose-forestry conflict in Scandinavia. I also found promising effects of ungulate-adapted logging to alleviate browsing damage, though I expect that increased monitoring over time could show greater differences. I found that snow depth and winter temperature influenced intensity of use of the landscape, with temperatures above 0°C showing a decline in intensity of use. And last, I found detection errors associated with fecal pellet group counts were largely than previously thought and likely underestimates of moose density and abundance. This thesis advanced our knowledge of the effects of human disturbances, that humans are an important provider of forage to an abundant large browser via land use changes, and milder winters may disproportionately affect Scandinavia’s southern moose populations compared to northern populations. This thesis acknowledges that monitoring data are not perfect, and I provide practical solutions to address detection errors to improve future monitoring programs.

Published

2021

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

Author

Loosen, Anne E., Devineau, Olivier, Zimmermann, Barbara, Cromsigt, Joris P. G. M., Pfeffer, Sabine E., Skarpe, Christina, and Marie Mathisen, Karen

Subjects

WOLVES, MOOSE, FORESTS & forestry, SNOW cover, SCOTS pine, UNGULATES

Abstract

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. [ABSTRACT FROM AUTHOR]

Published

2021

3. Ungulate-adapted forestry shows promise for alleviating pine browsing damage.

Author

Loosen, Anne E., Devineau, Olivier, Skarpe, Christina, Zimmermann, Barbara, Cromsigt, Joris, and Mathisen, Karen Marie

Subjects

FORESTS & forestry, MOOSE, PINE, SCOTS pine, UNGULATES

Abstract

• Ungulate-adapted forestry increases food availability via felling and scarification. • Undamaged Scots pine (Pinus sylvestris) increased near ungulate-adapted slash piles. • Undamaged Scots pine increased near stands with intensive scarification. • Effects of ungulate-adapted forestry were greatest at smallest spatial scales. 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. [ABSTRACT FROM AUTHOR]

Published

2021