Vegetation of Southern Patagonia in the 1970s – Digitization of a gray‐literature data set as a monitoring baseline in a changing world

Sabatini, Francesco Maria; Hähn, Georg; Speziale, Karina; Cingolani, Ana María; Damasceno, Gabriella; Bruelheide, Helge

doi:10.1111/jvs.13209

J Vegetation Science

2023

DOI: 10.1111/jvs.13209

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Vegetation of Southern Patagonia in the 1970s – Digitization of a gray‐literature data set as a monitoring baseline in a changing world

Francesco Maria Sabatini,

Georg Hähn,

Karina Speziale

et al.

Abstract: Monitoring vegetation trends against objective baselines is fundamental to quantify the impacts of global change on plant biodiversity. Vegetation plot time series are a gold standard in vegetation monitoring, but such data are missing for many regions. Southern Patagonia is an example of a region strongly impacted by climate change but lacking time series data. Monitoring in this region could benefit from a comparison with vegetation survey data gathered between 1975 and 1979, as part of the multidisciplinary… Show more

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2024

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Twig Age 2.0: Adjusting twig age data for differences in palatability among taxa to track ungulate browsing over sites and time

Waller

2024

Preprint

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Ungulate browsing threatens forest tree regeneration and diversity across forests in North America and other temperate regions but is inadequately monitored. This reflects both inadequate commitment and the lack of efficient, reliable methods to accurately track these impacts across sites and over time.The twig age method estimates time: how long twigs grow before being browsed, providing a direct measure of herbivory. The original method aged twigs on maple (Acer) seedlings, but it works well in other deciduous species. Given ungulate preferences for some species, it is important to adjust twig ages to correct for these.Using multiple datasets from many species and sites across the upper Midwest, I confirm the power and sensitivity of the twig age method for assessing and comparing white-tailed deer impacts over time, among species, and across sites. Twig ages respond differently to seedling heights when deer are present, providing an additional indicator. I extend the original method to rank and adjust for differential browsing among species in two ways: using least square means from statistical models and using ratios to adjust values to anAcer saccharumstandard. These adjustments match, supporting the use of either to accurately track shifts in browse pressure over time and across sites even when these differ in species composition.The adjusted twig-age method is highly efficient, allowing a sole worker to score 100+ seedlings/saplings within an hour to accurately gauge real-time ungulate impacts at a site. The reliability, power, and versatility of adjusted twig age data set a standard for assessing browse pressure and provide an efficient vehicle to expand programs to monitor deer impacts across landscapes.

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Twig Age 2.0: Adjusting twig age data for differences in palatability among taxa to track ungulate browsing over sites and time

Waller

2024

Preprint

View full text Add to dashboard Cite

show abstract

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Vegetation of Southern Patagonia in the 1970s – Digitization of a gray‐literature data set as a monitoring baseline in a changing world

Cited by 1 publication

References 51 publications

Twig Age 2.0: Adjusting twig age data for differences in palatability among taxa to track ungulate browsing over sites and time

Twig Age 2.0: Adjusting twig age data for differences in palatability among taxa to track ungulate browsing over sites and time

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