Ahmed A. H. Siddig scite author profile

24Indicator species (IS) are used to monitor environmental changes, assess the efficacy of 25 management, and provide warning signals for impending ecological shifts. Though widely 26 adopted in recent years by ecologists, conservation biologists, and environmental practitioners, 27 the use of IS has been criticized for several reasons, notably the lack of justification behind the 28 choice of any given indicator. In this review, we assess how ecologists have selected, used, and 36"bioindicator", and "biomonitor," but these and other terms often were not clearly defined.

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Assessing the impacts of the decline of Tsuga canadensis stands on two amphibian species in a New England forest

Siddig

Ellison

Mathewson

2016

Ecosphere

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Citation: Siddig, A. A. H., A. M. Ellison, and B. G. Mathewson. 2016. Assessing the impacts of the decline of Tsuga canadensis stands on two amphibian species in a New England forest. Ecosphere 7(11):e01574. 10.1002/ecs2.1574Abstract. Disturbances such as outbreaks of herbivorous insects and pathogens can devastate unique habitats and directly reduce biodiversity. The foundation tree species Tsuga canadensis (eastern hemlock) is declining due to infestation by the nonnative insect Adelges tsugae (hemlock woolly adelgid). The decline and expected elimination of hemlock from northeastern U.S. forests is changing forest structure, function, and assemblages of associated species. We assessed 10 years of changes in occupancy, detection probability, and relative abundance of two species of terrestrial salamanders, Plethodon cinereus (eastern redback salamander) and Notopthalmus viridescens viridescens (eastern red-spotted newt), to the experimental removal in 2005 of T. canadensis at Harvard Forest. Salamanders were sampled under cover boards and using visual encounter surveys before (2004) and after (2005, 2013, 2014) canopy manipulations in replicate 0.81-ha plots. In 2004, occupancy of P. cinereus was 35% lower in stands dominated by T. canadensis than that in associated mixed-hardwood control stands, whereas detection probability and estimated abundance of P. cinereus were, respectively, 60% and 100% greater in T. canadensis stands. Estimated abundance of N. v. viridescens in 2004 was 50% higher in T. canadensis stands. Removal of the T. canadensis canopy increased occupancy of P. cinereus but significantly reduced its estimated detection probability and abundance. Estimated abundance of N. v. viridescens also declined dramatically after canopy manipulations. Our results suggest that ten years after T. canadensis loss due to either the adelgid or pre-emptive salvage logging, and 50-70 years later when these forests have become mid-successional mixed deciduous stands, the abundance of these salamanders likely will be <50% of their abundance in current, intact T. canadensis stands. This study adds to our understanding of how forest disturbance, directly and indirectly caused by invasive species, can contribute to declines in the relative abundance of amphibians.

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Ahmed A. H. Siddig

How do ecologists select and use indicator species to monitor ecological change? Insights from 14 years of publication in Ecological Indicators

Assessing the impacts of the decline of Tsuga canadensis stands on two amphibian species in a New England forest

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