Poison ivy creates a lot of headaches this time of year for gardeners and landscapers as it spreads and can even become invasive. It can be tricky sometimes to identify poison ivy from other vines in our backyard. Here is a short video I made in the wooded area near the station to help you quickly identify a sticky situation and protect yourself from weeks of itching.
Here are the 3 main tips I cover in the video:
1. Poison ivy has 3 leaves, never more
2. Poison ivy grows shoots offset side to side, not side by side
3. Poison ivy never has thorns
In our ever-changing climate, plants and organisms will adapt and change to live/survive in future environment types. Poison ivy has long been an irritant and may get worse if our climate continues to warm (human induced or not).
His study exposed poison ivy plants to four different concentrations of CO2. The lowest two levels correspond to observations from the 1950s and the present. The highest two levels mirror projections for the years 2050 and 2090 from the 2007 AR4 IPCC report. In this analysis, we updated those projection dates based on the 2013 AR5 IPCC report, which are reflected in the accompanying graphic.
The experiment found that as CO2 concentration increased, there were dramatic surges in the size of the poison ivy leaves and the amount of urushiol they produced. Urushiol is the toxic, oily compound that causes skin rashes and blisters after exposure, and it is present in each part of the plant.
Based on the experiments, there has already been a substantial increase in poison ivy development since the 1950s. When CO2 increased in the lab from 300 to 400 ppm, the leaf area increased a remarkable 120%. In the experiment at 600 ppm, the leaf size increased an additional 37% from the 400 ppm level.
The jump in the urushiol was more dramatic, increasing 173% from the 1950s to the present. But while the growth in leaf size began to slow as CO2 concentration increased beyond current levels, the amount of urushiol nearly doubled between the current concentration of 400 ppm and the projected concentration of 600 ppm. According to the 2013 IPCC report, at current emission rates, that concentration will be reached between 2060 and 2070."