Conservation Creation: Red Panda-monium, featuring DIY Seed Bombs!

Usha Red Panda DSC_5036

Red pandas are undeniably one of the world’s cutest animals. With bright red fur, striking facial features and a big fluffy tail, these animals have quickly become popular throughout the internet and in the hearts of our guests. However, these traits serve a larger purpose than to pull at our heartstrings! Red pandas are native to Southeast Asia, particularly in the temperate forests near the Himalayan Mountains. In these areas, temperatures remain cool and that large fluffy tail is used almost like a blanket to keep these small animals warm. In addition to providing warmth, that beautiful thick red fur helps these animals camouflage themselves within the red lichens that grow in their natural habitat.

Believe it or not, the red panda is the original panda. Red pandas were discovered around 50 years before the black and white giant pandas that we typically think of. These animals have caused quite a headache for scientists over the years as they’ve tried to figure out the relationship between red pandas and giant pandas.

Currently, red pandas are classified in their own unique family called Ailuridae. However different these animals may seem, they do share some commonality. For one, both the red panda and the giant panda love to eat bamboo! These animals are also both greatly affected by habitat loss. Here at the Greensboro Science Center we support the Red Panda Network, an organization dedicated to preserving these animals. You can also help red pandas by donating to the Red Panda Network here (https://www.redpandanetwork.org) and by continuing to visit the Greensboro Science Center and other AZA accredited zoos and aquariums!

Remember to join us during the month of September on Tuesdays and Thurdsays at 10:30am and 2:30pm at our red panda habitat to participate in our Conservation Creation activity as well as on September 14thfor Red Panda Day!

While red pandas live thousands of miles away from us, there are things we can do for animals effected by habitat loss right here in North Carolina! Some of these animals include our local pollinators such as bees and butterflies. As we move in to the cooler months of fall, we can begin planting flowers and other plants to help out these animals. To get started, we have a cool DIY activity for you to do at home that will be fun for you and beneficial to our local pollinators: Seed Bombs!

DIY Seed Bombs

What you will need: Air-dry clay, potting soil or compost, water, seeds, a large mixing bowl, a measuring cup of any size

To choose seeds that will be the most beneficial to your area, visit this website: https://www.ourstate.com/tips-bee-friendly-garden-north-carolina/

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Seed bomb ingredients

Step 1: Take 1 part clay, 1 part water, and 2 parts potting soil or compost and combine them in your mixing bowl.

Seed-Bomb-Combine-Ingredients

Combine 1 part clay, 1 part water, and 2 parts potting soil or compost

Step 2: Use your hands (or a large spoon) to mix the ingredients together, adding water as necessary. Your final mixture should be similar to Play-Doh in consistency.

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Mix ingredients, adding water as necessary, until the mixture has a Play-Doh-like consistency

Step 3: Add your seeds of choice to the mixture and mix thoroughly.

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Add seeds

Step 4: Form the mixture into balls or another fun shape of your choosing.

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Form the mixture into balls

Step 5: Allow 2-3 days for your seed bombs to dry and then toss them wherever you would like your seed bombs to grow! Seed bombs don’t require care or attention so they can be placed wherever you would like to see your flowers. Visit them often in the Fall and Spring to see if you have any insect visitors!

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Completed seed bombs!

Greensboro Science Center Announces 2019 – 2020 Conservation & Research Grant Recipients

The Greensboro Science Center’s (GSC) Research Committee is pleased to announce the recipients of its annual Conservation & Research Grant. Each year, GSC employees are given the opportunity to apply for funds to pursue a conservation or research project. The 2019 – 2020 grantees are as follows:

Michael Motsch, Zookeeper

Project: Red Panda Network’s Zoo Eco Trip

The Zoo Eco trip allows keepers to track red pandas with the professionals who study and monitor wild populations. Michael, the lead red panda keeper at the GSC, will travel to Nepal in December to participate in this program. The experience will unite Michael’s passion for red pandas and his interest in their conservation via hands-on field work.

Sara Payne, Exhibits & Design Manager

Project: Human-Chimpanzee Conflict Awareness Project

The Pan-African Sanctuary Alliance (PASA) works with primate conservation organizations across Africa. Sara will develop educational materials, including banners and posters, for Chimpanzee Trust, a PASA member, that will be distributed throughout the region to inform locals about human – animal conflict and emphasize the importance of primates.

Katie Ruffolo, Educator

Project: North Carolina Wildlife Resource Commission (NCWRC) Website Content- Species Profile Updates

The NCWRC is updating the herpetofauna species profiles on their website. Katie is combining her love of herptiles with her love for writing to assist the commission in creating profiles. She will travel across the state to meet with species specialists, gather information for their profiles, and write content that will appear on the NCWRC’s website.

Lindsey Zarecky, the GSC’s VP of Conservation & Research, says, “We are excited to have such diverse projects submitted for this year’s grant cycle. The Research Committee is happy to support these unique and individualized projects.”

 

 

Studying Bats for Species Conservation

The Greensboro Science Center’s Conservation and Research department is actively involved in saving the seven bat species found right here in the Piedmont. Bats in North Carolina are insectivores, meaning they consume insects. Every night from late spring until early fall, you may see bats swooping through the skies, foraging for insects. They are a great, natural pesticide – which is just one of the endearing qualities that makes us want to protect them!

In 2011, researchers began to see signs of White Nose Syndrome (WNS) on hibernating bats in the mountains. WNS is a fungus that adheres to the bats’ skin, particularly their muzzles and wings. The fungus is an irritant that causes the bats to wake from torpor, or hibernation. The process of waking burns a lot of calories, so the bats are hungry, but in winter, there are no insects to eat to sustain them. Large numbers of bats have perished from WNS by burning up their fat reserves before their spring emergence. Some species of bats are more prone to WNS than others, so some species have seen a much more dramatic decline than others.

Researchers across the country, particularly in states impacted by WNS, want to know the abundance and diversity of bats. Researchers collect this information to help construct a long-term understanding of populations before, during and after WNS. It allows scientists to make more informed decisions to combat the disease.

In order to understand what species live here, we sample the population. Since bats use echolocation, we use ultra-sonic recording devices to record calls. We can then interpret the call to identify the species and discover whether they are foraging or navigating their environment. We also use mist-nets to catch bats and obtain diversity and abundance information. This allows us to not only know what species is present, but also the sex ratio, age, and overall health of our bat populations.

Mist-netting is a technique where you string a mist-net between tall poles mounted in the ground like flag poles. Mist nets range in size from 3 meters to 12meters and can be combined to reach up to 30 meters high. Nets are placed at sundown and remain until 1:00am, with researchers checking them every eight minutes. Bats typically go through two rounds of foraging, one at sundown and one just before the sun rises. Mist nets look and feel like hair nets and they are designed such that bats fly into them and safely fall into a net pouch. Researchers carefully remove the bat from the net and place them into a mesh bag.

Once we have a “bat in hand”, we can collect information, including weight (1), species (2), arm length (3), age (4), gender (5), and wing rating (6). Then, we place an ID band on its wing (7) and release it so it can continue foraging. All data collected from these outings are tracked by the state.

The combination of acoustic recordings and mist-netting gives us an understanding of our bat populations. This data allows us to look at trends over time and see how species diversity and abundance change in response to situations like WNS. From this information we can make informed decisions on maintaining bat roosts, including caves, bridges and forests. Wildlife is wild and we are here to guide decisions that allow wildlife to thrive! Every action has an equal and opposite reaction, so we need as much data as we can gather before we make any decision that could alter the natural behaviors or species composition in a habitat.

It is thanks to years of data collection that we have seen a plateau in the decline of WNS-impacted species. It is encouraging to think the large scale declines are coming to an end. We have also seen juveniles of those impacted species, which gives us hope that species are trying to rebound. Bat work will continue to help researchers understand this unique mammal and to help protect their habitats.