Your search keyword '"Anderson, Christopher B."' showing total 8 results

1. Acoustic monitoring shows invasive beavers Castor canadensis increase patch‐level avian diversity in Tierra del Fuego.

Author

Francomano, Dante, Valenzuela, Alejandro E. J., Gottesman, Benjamin L., González‐Calderón, Alvaro, Anderson, Christopher B., Hardiman, Brady S., and Pijanowski, Bryan C.

Subjects

BEAVERS, RIPARIAN forests, ECOLOGICAL impact, BIOLOGICAL invasions, FOREST birds, SPECIES diversity, COST effectiveness, HABITATS

Abstract

Copyright of Journal of Applied Ecology is the property of Wiley-Blackwell 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

2021

2. Assessing the effects of urbanization on streams in Tierra del Fuego.

Author

ZAGAROLA, JEAN-PAUL A., MARTÍNEZ PASTUR, GUILLERMO, LOPEZ, MARÍA EUGENIA, and ANDERSON, CHRISTOPHER B.

Subjects

URBANIZATION, BENTHIC ecology, RIVERS, HABITATS, DISSOLVED oxygen in water, WATERSHEDS

Abstract

Copyright of Ecologia Austral is the property of Asociacion Argentina de Ecologia 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

2017

3. HABITAT USE BY INVASIVE NORTH AMERICAN BEAVER DURING INTERMEDIATE AND LONG-TERM COLONIZATION PERIODS IN SOUTHERN PATAGONIA.

Author

Davis, Ernesto F., Valenzuela, Alejandro E. J., Murcia, Silvia, and Anderson, Christopher B.

Subjects

BEAVERS, ANIMAL ecology, HABITATS

Abstract

Copyright of Journal of Neotropical Mammalogy / Mastozoologia Neotropical is the property of Sociedad Argentina para el Estudio de los Mamiferos 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

2016

4. Engineering by an invasive species alters landscape-level ecosystem function, but does not affect biodiversity in freshwater systems.

Author

Anderson, Christopher B., Vanessa Lencinas, María, Wallem, Petra K., Valenzuela, Alejandro E. J., Simanonok, Michael P., Martínez Pastur, Guillermo, and Keller, Reuben

Subjects

*INTRODUCED species, *LANDSCAPES, *ECOSYSTEMS, *BIODIVERSITY, *FRESHWATER ecology, *HABITATS, *AMERICAN beaver

Abstract

Aim Ecological theory predicts that invasive ecosystem engineers like the American beaver ( Castor canadensis) in Tierra del Fuego ( TDF) affect landscape-level biodiversity and ecosystem function ( BEF) when engineered habitats are novel or extensive. We tested these hypotheses on freshwater BEF, sampling benthic habitat and macroinvertebrates in natural lotic (forest and grassland streams) and natural lentic habitats (bogs, lakes) and beaver-modified lentic ecosystems (active and abandoned ponds). Location Tierra del Fuego Archipelago (Chile and Argentina). Methods To determine effects on patch-scale BEF, we assessed two drivers: substrate diversity (H′) and benthic organic matter standing crop ( BOM, g m−2). Extent of impact was estimated as relative stream length (%) for each patch type in four 1000 ha images. Results The freshwater landscape was 56% free-flowing streams (natural lotic), 13% bogs and lakes (natural lentic) and 31% active and abandoned beaver ponds (beaver lentic). While engineering significantly modified lotic habitats (converting them to ponds), the beaver ponds were largely similar to natural lentic systems, but engineered lentic patches retained more BOM. While benthic biodiversity in beaver ponds was less than streams, the assemblage contained no habitat-specific taxa and was a subset of the natural lentic community. Main conclusions Invasive beavers engineer habitats whose biodiversity is similar to the landscape's natural lentic habitats, but by increasing the surface area and unit area retention of BOM via its impoundments, this invasion augments carbon standing stock approximately 72% in watersheds. While this invasion is considered the largest alteration to TDF's forested biome in the Holocene, here we discover that its impact is to ecosystem function, rather than biodiversity in the aquatic landscape. [ABSTRACT FROM AUTHOR]

Published

2014

5. Do introduced North American beavers Castor canadensis engineer differently in southern South America? An overview with implications for restoration.

Author

ANDERSON, CHRISTOPHER B., PASTUR, GUILLERMO MARTÍNEZ, LENCINAS, MARÍA VANESSA, WALLEM, PETRA K., MOORMAN, MICHELLE C., and ROSEMOND, AMY D.

Subjects

*AMERICAN beaver, *BEAVERS, *NOTHOFAGUS, *BIOTIC communities, *HABITATS, *FORESTRY engineering

Abstract

1. Twenty-five pairs of North American beavers Castor canadensis Kuhl were introduced to Tierra del Fuego Island in 1946. The population has expanded across the archipelago, arriving at the Chilean mainland by the mid-1990s. Densities range principally between 0.5–2.05 colonies/km. They have an impact on between 30–50% of stream length and occupy 2–15% of landscape area with impoundments and meadows. Beaver impacts constitute the largest landscape-level alteration in subantarctic forests since the last ice age. 2. The colonization pattern, colony densities and impacted area indicate that habitat in the austral archipelago is optimal for beaver invasion, due to low predator pressure and suitable food resources. Nothofagus pumilio forests are particularly appropriate habitat, but a more recent invasion is occurring in adjacent steppe ecosystems. Nonetheless, Nothofagus reproductive strategies are not well adapted to sustain high beaver population levels. 3. Our assessment shows that at the patch-scale in stream and riparian ecosystems, the direction and magnitude of exotic beaver impacts are predictable from expectations derived from North American studies, relating ecosystem engineering with underlying ecological mechanisms such as the relationships of habitat heterogeneity and productivity on species richness and ecosystem function. 4. Based on data from the species' native and exotic range, our ability to predict the effects of beavers is based on: (i) understanding the ecological relationships of its engineering effects on habitat, trophic dynamics and disturbance regimes, and (ii) having an adequate comprehension of the landscape context and natural history of the ecosystem being engineered. 5. We conclude that beaver eradication strategies and subsequent ecosystem restoration efforts, currently being considered in southern Chile and Argentina, should focus on the ecology of native ecosystems rather than the biology of this invasive species per se. Furthermore, given the nature of the subantarctic landscape, streams will probably respond to restoration efforts more quickly than riparian ecosystems. [ABSTRACT FROM AUTHOR]

Published

2009

6. Ecosystem engineering by invasive exotic beavers reduces in-stream diversity and enhances ecosystem function in Cape Horn, Chile.

Author

Anderson, Christopher B. and Rosemond, Amy D.

Subjects

*BIOLOGICAL invasions, *AMERICAN beaver, *BIOTIC communities, *HABITATS, *RIVERS, *PONDS

Abstract

Species invasions are of global significance, but predicting their impacts can be difficult. Introduced ecosystem engineers, however, provide an opportunity to test the underlying mechanisms that may be common to all invasive engineers and link relationships between changes in diversity and ecosystem function, thereby providing explanatory power for observed ecological patterns. Here we test specific predictions for an invasive ecosystem engineer by quantifying the impacts of habitat and resource modifications caused by North American beavers ( Castor canadensis) on aquatic macroinvertebrate community structure and stream ecosystem function in the Cape Horn Biosphere Reserve, Chile. We compared responses to beavers in three habitat types: (1) forested (unimpacted) stream reaches, (2) beaver ponds, and (3) sites immediately downstream of beaver dams in four streams. We found that beaver engineering in ponds created taxonomically simplified, but more productive, benthic macroinvertebrate assemblages. Specifically, macroinvertebrate richness, diversity and number of functional feeding groups were reduced by half, while abundance, biomass and secondary production increased three- to fivefold in beaver ponds compared to forested sites. Reaches downstream of beaver ponds were very similar to natural forested sections. Beaver invasion effects on both community and ecosystem parameters occurred predominantly via increased retention of fine particulate organic matter, which was associated with reduced macroinvertebrate richness and diversity (via homogenization of benthic microhabitat) and increased macroinvertebrate biomass and production (via greater food availability). Beaver modifications to macroinvertebrate community structure were largely confined to ponds, but increased benthic production in beaver-modified habitats adds to energy retention and flow for the entire stream ecosystem. Furthermore, the effects of beavers on taxa richness (negative) and measures of macroinvertebrate biomass (positive) were inversely related. Thus, while a generally positive relationship between diversity and ecosystem function has been found in a variety of systems, this work shows how they can be decoupled by responding to alterative mechanisms. [ABSTRACT FROM AUTHOR]

Published

2007

7. Even at the uttermost ends of the Earth: how seabirds telecouple the Beagle Channel with regional and global processes that affect environmental conservation and social-ecological sustainability.

Author

Raya, Andrea N., Pizarro, J. Cristobal, Anderson, Christopher B., and Huettmann, Falk

Subjects

*SEA bird behavior, *ENVIRONMENTAL protection, *ANTHROPOCENE Epoch, *HABITATS, *SUSTAINABLE development

Abstract

Human-wildlife dynamics exhibit novel characteristics in the Anthropocene, given the unprecedented degree of globalization that has increased the linkages between habitats and people across space and time. This is largely caused by transnational mobility and migration, international labor, resource markets, and trade. Understanding the relationship between humans and wildlife, and their associated telecoupling processes, helps to promote better management practices and governance for reconciling socioeconomic and conservation interests. Even remote places on the globe exhibit these features. For example, in southern Patagonia's coastal and marine ecosystems, seabirds are not only very abundant and charismatic members of the wildlife community, nowadays, their colonies are a main tourism attraction of global significance, and in the past they were used for consumptive and scientific purposes that also linked the "uttermost ends of the Earth" with distant places. Thus, in this study, we review human-seabird interactions in the iconic Beagle Channel (BC) in the Argentine portion of the Tierra del Fuego Archipelago. We adapted and employed the coupled human and natural systems (CHANS) approach and telecoupling framework to integrate disparate social and biological information and obtain a more holistic understanding of current human-seabird dynamics and trends in the BC. Although our assessment includes the temporal scale of human-seabird relationships, we centered the CHANS and telecoupling analysis on the modern seabird-tourism interaction, focused on the channel's Argentine sector, in which tourism is most intensively developed. Our synthesis of the BC's telecoupled CHANS allowed us to recognize the strong historical local-to-global interactions between both human and natural subsystems and the sharp increase in distance telecoupling during the 20th century. Despite this globalizing trend in seabirds connecting the BC's local ecosystems to distant places, ironically we found few linkages between Argentina and Chile, despite both countries sharing political sovereignty over this single biogeographical unit. Recognizing and studying the telecouplings identified in this study would help multilateral efforts to incorporate the spillover systems (especially with Chile) and sending systems (i.e., transnational tourists' countries of origin) into extant regional policies (e.g., state protected areas) and global initiatives (e.g., the United Nations' sustainable development goals). It would also enable more informed decisions regarding specific proposals based on market-based incentives (e.g., payment for ecosystem services), certification schemes (e.g., Distintivo Onashaga) and participatory approaches (e.g., comanagement of natural resources with local communities). Integrating these scales into the management of the BC would help ensure that humans continue to enjoy meaningful relationships with this unique and charismatic wildlife and at the same time reinforce responsible tourism as a local-global strategy for sustainable development and global conservation. [ABSTRACT FROM AUTHOR]

Published

2017

8. Alteration of hydrogeomorphic processes by invasive beavers in southern South America.

Author

Westbrook, Cherie J., Cooper, David J., and Anderson, Christopher B.

Subjects

*GEOMORPHOLOGY, *ECOLOGICAL impact, *HABITATS, *LANDSCAPES

Abstract

The North American beaver ( Castor canadensis ) is an invasive species in southern Patagonia, introduced in 1946 as part of a program by the Argentine government to augment furbearers. Research focus has turned from inventorying the beaver's population and ecosystem impacts toward eradicating it from the region and restoring degraded areas. Successful restoration, however, requires a fuller determination of how beavers have altered physical landscape characteristics, and of what landscape features and biota need to be restored. Our goal was to identify changes to the physical landscape by invasive beaver. We analyzed channel and valley morphology in detail at one site in each of the three major forest zones occurring on the Argentine side of Tierra del Fuego's main island. We also assessed 48 additional sites across the three forest biomes on the island to identify a broader range of aquatic habitat occupied and modified by beaver. Beaver build dams with Nothofagus tree branches on streams, which triggered mineral sediment accretion processes in the riparian zone, but not in ways consistent with the beaver meadow theory and only at a few sites. At the majority of sites, beavers actively excavated peat and mineral sediment, moved thousands of cubic meters of sediment within their occupied landscapes and used it to build dams. Beaver were also common in fen ecosystems where pond formation inundated and drowned peat forming mosses and sedges, and triggered a massive invasion of exotic plant species. Results highlight that restoration of fen ecosystems is a previously unrecognized but pressing and challenging restoration need in addition to reforestation of Nothofagus riparian forests. We recommend that decision-makers include the full ecosystem diversity of the Fuegian landscape in their beaver eradiation and ecosystem restoration plans. [ABSTRACT FROM AUTHOR]

Published

2017