Phenological Observations in Downer Woods

Presenter Information

Jared Kuschewski

Mentor 1

Mark Schwartz

Location

Union Wisconsin Room

Start Date

27-4-2018 1:00 PM

Description

Jared Kuschewski

Mentor: Prof. Mark D. Schwartz, Geography Department

Poster Presentation

The rate at which the earth’s climate is changing is a rapidly growing concern in today’s world. This project uses phenology, the study of seasonal plant cycles, to quantify the effects of climate change. Observations were taken at multiple forested locations across Wisconsin, with Downer Woods being the focus of this part of the project. Downer Woods has a permanent grid system, upon which are located 27 sites. Each site consists of 4 trees, which are the focal point of the observations. The two predominant species in these observations are white ash (Fraxinus americana sp.) and basswood (Tilia americana sp.), with a significant number of red oak (Quercus rubra sp.) and white oak (Quercus alba sp.), and a rather small numbers of boxelder (Acer negundo sp.), hophornbeam (Ostrya virginiana sp.), and hawthorn (Crataegus sp.). White ash, basswood, and oak are the dominant woody species that occupy the upper emergent and canopy forest layers. Boxelder, hophornbeam, and hawthorn are smaller, woody shrub-like species that occupy the midstory forest layers. The observations consist of recording leaf coloration in each individual tree, as well as leaf fall in each individual tree. Coloration was recorded as four different numerical values. These values were placed into 4 categories that were based on the percent of leaf coloration per tree. By observing the leaf change and leaf fall in Wisconsin forests, we can quantify plant-climate interactions and relate this seasonal data to the yearly climate trends that are being observed simultaneously. This past autumn there was an unusually early start to the coloring of basswood leaves, being the earliest that was recorded since observations began in 2007. It is data like this, coming in during a time of increasingly erratic weather patterns and seasonal changes, that may help show that climate change is indeed having a significant impact on the world we live in.

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Apr 27th, 1:00 PM

Phenological Observations in Downer Woods

Union Wisconsin Room

Jared Kuschewski

Mentor: Prof. Mark D. Schwartz, Geography Department

Poster Presentation

The rate at which the earth’s climate is changing is a rapidly growing concern in today’s world. This project uses phenology, the study of seasonal plant cycles, to quantify the effects of climate change. Observations were taken at multiple forested locations across Wisconsin, with Downer Woods being the focus of this part of the project. Downer Woods has a permanent grid system, upon which are located 27 sites. Each site consists of 4 trees, which are the focal point of the observations. The two predominant species in these observations are white ash (Fraxinus americana sp.) and basswood (Tilia americana sp.), with a significant number of red oak (Quercus rubra sp.) and white oak (Quercus alba sp.), and a rather small numbers of boxelder (Acer negundo sp.), hophornbeam (Ostrya virginiana sp.), and hawthorn (Crataegus sp.). White ash, basswood, and oak are the dominant woody species that occupy the upper emergent and canopy forest layers. Boxelder, hophornbeam, and hawthorn are smaller, woody shrub-like species that occupy the midstory forest layers. The observations consist of recording leaf coloration in each individual tree, as well as leaf fall in each individual tree. Coloration was recorded as four different numerical values. These values were placed into 4 categories that were based on the percent of leaf coloration per tree. By observing the leaf change and leaf fall in Wisconsin forests, we can quantify plant-climate interactions and relate this seasonal data to the yearly climate trends that are being observed simultaneously. This past autumn there was an unusually early start to the coloring of basswood leaves, being the earliest that was recorded since observations began in 2007. It is data like this, coming in during a time of increasingly erratic weather patterns and seasonal changes, that may help show that climate change is indeed having a significant impact on the world we live in.