We created the World's first tweeting bumblebees, and went on to win the Internet of Things Award (Environmental) 2012! Thank you to our readers for your votes!
Introduction
Our Bumblebee nesting project started in 2011 as a bit of conservation to help the declining bumblebee population by encouraging one (or more) to nest in boxes in our garden. We discovered it's not easy, and our project quickly evolved into an ongoing and intimate study of these amazing creatures, which we are sharing here for the benefit of all.
Amongst our unexpected successes are:
A short clip in the film "Britain in a Day" by Ridley Scott (Broadcast by the BBC in 2012)
Featured in Wired Magazine for creating the World's first tweeting bumblebees
Winner of the Internet of Things award 2012 - Environmental Category
Oldest recorded age we can find of a worker Bufftailed Bumblebee - at 103 days
We've discovered, observed and collected a sizeable amount of real-world data, still being analysed and written up (Overview here). Additionally,
We've sourced several live colonies from commercial providers and have been looking after numerous disabled bees indoors.
We've learnt to recognise individual bees, spot specific/individual behaviour patterns
We measured efficiency and can predict some of their behaviour triggers.
You can also follow BeeBoxALula on twitter where our bumblebees tweet live for themselves!
Insights
We're also using tech to monitor the lives of our bumblebees - visual, audio, temperature, sunlight, weather. We can see how the environment impacts their behaviour and understand, capture and share the marvels of their secret lives.
As a species under great threat, we've brought the critical study of Bumblebees into the Multimedia age and revealed intriguing and new insights based on direct observation.
We're indebted to Hans at ioBridge for a great mention in a podcast by himself and his co-founder (Jason) over on "IT Conversations".
The discussion is about the "Internet of Things", it's relevance and evolution, and how ioBridge has contributed to that (particularly with some unique Intellectual Property).
ioBridge is the core technology we use to interface our bumblebee nest to the Internet and it has worked impeccably (and easily) since the day we installed it. Hans has been a great advocate for our project, which is arguably another "novel use" for their technology and a demonstration of not just connecting "things" to the internet, but connecting "Nature".
Our discussion is around 18 mins into the podcast.
We've got some more great technology to come too, so watch this space.
For the first time, our bumblebees generated their own tweet this morning as a result of increased activity following the prolonged cold and rainy spells.
Our bumblebees' first ever tweet
To my knowledge, this is the first tweet ever generated by bumblebees themselves. Sadly they are not equipped with a bee-size keyboard, so instead the tweet comes courtesy of an activity monitor via the entrance flap to their nest. The flap itself is there for protection against invasion by Wax Moth and the bumblebees have learnt to operate it in order to leave the nest to forage.
The Bumblbees are busy and have started tweeting
While the tweeting is fun, there is a serious point to having an "internet enabled" bumblebee nest, as we are collecting data about the environment/micro-climate and the bumblebee activity "outside of the laboratory". Though bumblebees have been studied for well over 100 years, some of this research takes place in the lab; a criticism that is often levelled, for example, on studies of the effect of pesticides on pollinators.
Our project, therefore, is demonstrating a proof of concept for the type of technology that can be used to study bumblebee behaviour in wild environments. We hope to build on the data we collected in 2011 which was able to determine the factors that trigger bumblebees to start and stop working at the beginning and end of the day.
I finally got out in the garden again to day to complete part 2 of my bumblebee sensor project.
The system has been up and running for a week, measuring temperature and light levels, but I needed to tackle two things:
The outdoor temperature sensor was too exposed and over-reading in direct sunlight; and was too close to the garage wall, so also picking up heat from the wall
I still had to finish constructing and fit a flap sensor to monitor activity in and out of the nest
For the thermometer, I hacked a small bottle apart and fixed it up with my new favourite "stuff for making things with": Sugru. Here is is below with the iobridge board in the background.
a bottle to hold the outdoor thermometerNext I just spray painted it with some plastic paint - so it would blend in a bit and be protected from sunlight. Only a rough job - good enough!
bottle spray painted & fixed together with SugruThe thermometer (white wire) runs up a small tube in the neck of the bottle where it is shieled from the elements. Then it is simply mounted on a cane round about nest height, and away from the garage wall.
thermometer on a stick!In comparison with our wireless weather system, my DIY thermometer was only reading 0.2C difference, which I am very happy with.
Flap Counter
Next up was the flap sensor. Getting a good flap sensor running has been critical for me this year, because I want to use it to closely correlate activity data with enivronment data. I was only able to do this last year in a minimal way because it's so labour intensive (to do from CCTV).
While this initial system will not give me the reliability required to accurately count bees in and out (it's not directional anyway) what it should do is give me activity levels throughout the day (e.g. first, last, flights during bad weather etc.) which will definitely be a step forward.
The system is comprised, essentially, of an alumiumium foil strip attached to the side of the flap that acts as a make/break switch on the ioBridge digital input. When the flap is closed, the circuit is made, and the digital input is held low. Once a bee pushes through the flap, the circuit is broken, which generates a digital pulse that the ioBridge board can count.
flap sensorIt's taken quite a bit of experimenation to get the inputs working in a way that is meaningful. Opening and closing the flap doesn't just generate a single pulse but can generate many (the bumblebees themselves very rarely just open it cleanly - but push against, causing it to open and close); so I can't rely on this basic circuit to count single open/close of the flap.
But it doesn't really matter as the system will count the total number of activations and report this every 10 minutes. These 10 minutes slices will give an indication of the overall activity level, and in particular detect things like 1st & last exits, which I'm particularly interested in.
This is only a phase 1 system - to get me started and get some data collected; I have ideas/plans for two further developments of this system - one using a light beam sensor (this would solve the problem of the flap being so busy that it actually gets held open and only counts a single pulse for many bees) and also a non-contact displacement sensor which will measure the exact angle of opening. Ideally a combination of these two would be good - but I don't have enough inputs at the moment.
So, I have to wait for a few days now to collect some data and see how the system performs.
I made some further progress today in getting our beepol lodge "internet enabled" - to get temperature, light and activity data automatically logged and available online.
More details are on the technology page, but I'm using an ioBridge board to capture the data and push it to their web platform, whenceforth all manner of wonderful things can be done with it.
I've been setting it up over the last week - getting to grips with the way the sensors would and the way data is recorded. I've pretty much got to grips with the basics, as well as some of the features that are possible such as twitter notifications.
The rain and wind and low temperatures continue to make getting in the garden to do jobs a very cold and messy (muddy) affair - notwithstanding, I did some of the setup in the garage, which included drilling through the wall for the wires and getting the network up and running.
getting the iobridge powered up and running in the garage - sensors routed through the wallI mounted a weatherproof box on the outside of the garage. This will contain an ambient light sensor, and some status LEDs (for example, a sunset/sunrise indicator) and a warning buzzer (e.g. for nest "over temperature")
outdoor iobridge sensorsThe white cables are the two temperature sensors - one for inside the nest, the other for the ambient temperature.
This is the kind of output we're getting at the moment. Once it's been running a few days, I'll set up some rules (such as triggers on temperatures).
iobridge dashboard of bumblebee sensorsYou can see I've set up a "flap input". This is not installed yet, but the plan is to put a small switch on the wax-moth flap (made from aluminium foil) and count the amount of "flap" activity, which will give an indication of how many bumblebees are coming and going into the nest. Just need a dry, warmer day to get that done.
We've always had a strong technology angle on our project - if nothing else, it has made the whole thing far more enjoyable by allowing us such intimate observation in the lives of these amazing creatures. But actually, more than that, it has allowed us some fascinating observations and data collection that sheds (some possibly new) light on their normally private and underground existence.
A lot is known about bumblebees, but that doesn't mean everything is - and particularly as the climate and macro and micro environments change, so too bumblebees are surely affected. So, we feel that observing, collecting data and reporting our findings is also an important part of our project - and the technology is a big part in that.
There's a fun side to it too - From the outset I've wanted an internet connected bumblebee nest (see Internet of Things), so that we can remotely monitor data, but also do fun things, like have the bumblebees send tweets. This kind of technology, while seemingly frivolous, is actually an important part of our future, in terms of environmental understanding and monitoring. It's the kind of technology that is monitoring habitats, storms, oceans, tidal waves, severe weather and so on. Someone has to explore the "art of the possible" so that we can understand and predict our planet better.
For our first year I dabbled a bit with some "interconnectedness" - got a few tweets coming out of the CCTV system when it detected movements, but it really was dabbling round the edges. I was also comtemplating a new system called "Twine" which provides temperature and movement detection in a small plastic "soap bar" that can connect to the internet. But it's expensive.
For this year, however, I'm excited to discover iobridge. This clever little modular system connects to your network and internet and a whole range of different types of sensors. You can easily configure its operation and rules through the iobridge website and cloud service, as well as get the system integrated with other webservices, and of course twitter :-)
iobridge - creating the "internet of things"I plan to document what I'm doing with this on my technology page rather than within the blog, so it's all in one place.
Suffice to say, there are a lot of possibilities with a connected bumblebee nest, for example:
warnings of temperature too high / too low
measuring activity levels and correlating with weather and light
measuring light levels and entrance / exit behaviour
counting bumblebees in and out
The beauty is, all this data can be published on an online dashboard, viewed on the iPhone/iPad and also integrated with other services, as well as sending alerts and messages via email and twitter etc. There really is huge scope to monitor and collect some great data, and completely automate the process. I can even embed some of the realtime data in other websites, such as this blog.
I've been making good progress so far getting it configured. For example, I have an LED which is green before sunset and red after sunset (so we know when the bumbles should be in), a small alarm that goes off if the temperature gets above 30C (and tweets some warnings in advance), and I'm currently working on counting the breaks in a light beam so we can start to count the bumbles coming and going.