Another year of microclimate citizen science!

‘CurieuzeNeuzen in de Tuin’ (CNidT), the large-scale citizen science project on drought, heat and moisture in gardens is playing extensions. After a summer that was exceptionally wet, the project hopes to collect additional data on heat and drought. Find out all in the original story in De Standaard (here a shortened translation).

An ailing summer that never really got off the ground, with extreme flooding in large parts of Flanders in July. It was not the ideal setting for ‘the largest citizen survey on drought and heat ever’ in Flanders. Nevertheless, CuriousNoses in the Garden, a project by De Universiteit Antwerpen, De Standaard and many partners, was an unexpected success. We collected unique information on temperature differences between gardens, with data from cold freezing nights in April to insights into urban heat islands. The wettest summer in 200 years came as an unexpected godsend: the 5,000 sensors in garden soils give us a unique insight into the role of gardens as sponges during extreme rainfall, which will be reported in detail in October.

The one of a kind pluche ‘garden dagger’

Drier and wetter

But to live up to the baseline of research on heat and drought, more information is needed. The researchers at the University of Antwerp are curious about the interaction between drought and heat, want to find out how gardens work as air conditioners during heat waves and how long gardens retain water during drought. That’s why the citizen research with the ‘garden daggers’ is being extended for a year. There is a real chance that we will have a drier and hotter summer next year. In that case, the questions above can be answered, and we can compare data: how do gardens experience a warm day in a wet year versus a warm day in a dry year?

With climate change, scientists predict that we will get more of both: longer periods of drought and heat, interspersed with periods of heavy rainfall. This trend has already manifested itself in recent years. The extension of the citizen survey provides a unique opportunity to cover the whole picture and map the effects of both drought and flooding on a large scale and in fine detail. But even if 2022 has another ailing summer in store, it would provide relevant insights, for example about rain infiltration and groundwater.

1,000 candidates

The extension of the citizen survey provides a unique opportunity to map the effects of drought and flooding on a large scale and in a detailed manner.
To obtain this data, the researchers are looking for at least 1,000 participants who want to continue the climate survey in their garden.

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ME&B conference in Antwerp

One of my dreams since the start of the SoilTemp project: bringing all microclimate enthusiasts together at their own dedicated conference…

Now, this dream will become a reality with #MEB2022, an international conference on Microclimate Ecology & Biogeography which we will host here at the University of Antwerp.

Today, we launched the website ( and abstract submission, hoping to attract up to 100 international experts to Antwerp.

Now crossing fingers on this exciting ride to March 28th, 2022.

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The TMS-Pluche

Consider development of microclimate sensors a closed and finished field: the ultimate product is now on the market!

Thanks to the partner of our colleague Stijn, I got the most beautiful pluche version of a TMS-version, which we immediately bombarded to the mascotte of our citizen science project.

Look what an absolute cutie!

The youngest microclimate ecologist here at home is in any case a big fan of the new ‘mushroom’, although she still really loves those funny ones with the blue blinking light that daddy distributes all through the garden.

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Nights with a baby: is it all about perception?

EDIT: baby 2 wants me to publicly apologies as I made a mistake in the calculations with her data (for the R-people, as.POSIXct got me). Post now updated!

This summer, we doubled the sample size of our offspring experiment. We now have a sample size of n=2, so data analyses are really gearing up now!

The two test subjects interacting

First up, that crucial question: how are the nights? Are you getting some sleep? And most importantly, is baby 2 giving you a harder time than baby 1?

I’ll tell you our hypothesis first: we are feeling much better. Baby 2 seems to be giving us much more solid blocks of sleep than baby 1 did. We have vague memories of these first weeks with the first one, where we were bouncing a child through the living room in the middle of the night, trying in vain to get her screams to stop.

Baby 2 also has some issues (reflux is a bitch, I’ll tell you), but overall crying feels much lower, and sleep patterns more consistent. But does the data agree with our analysis? Let’s dive in!

Proxy of how much sleep we have been getting at night over time, using the hours between the two main night feedings (evening and early morning). Data for two different babies relative to their respective birth date. Note that we started tracking much earlier for baby 2, yet that she is obviously much younger at the moment.

After a first erroneous analysis which seemed to prove our hypothesis wrong, we can now proudly say that baby 2 indeed seems more parent-friendly! With things rapidly improving during the first few weeks (note that we were too flabbergasted to track those with baby 1), baby 2s performance has at first been more than an hour and now still on average more than 15 minutes above the one from baby 1.

Of course there is more to the night than the time between the two main feedings. While baby 1 always had a lot of trouble in the morning (so after that nightly feed), baby 2 also seems to be struggling through these hours a lot more independently. As a result, I now often find myself in bed at 6h30 in the morning, a rare sight with baby 1! So yes, life with baby 2 is a lot more livable than it was with baby 1.

Life with 2 is in any case much better than with 1!

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A story of collective responsibility

The wettest summer in two centuries is an unexpected windfall for our citizen science project ‘CurieuzeNeuzen in de Tuin’ (CNidT). Our garden sensors fill a black hole in our knowledge: how can gardens act like sponges and buffer extreme rainfall?

Check out the original article from De Standaard, in Dutch, by Ine Renson!

Every liter of water sucked up by a garden results in less inconvenience during extreme rainfall. Copyright Dieter Telemans for De Standaard

An unexpectedly wet spring, which cumulated in the extreme precipitation of mid-July with a hopeless string of crappy days in August: for a large-scale citizen science project on heat and drought in gardens and parks, it seems like a worst-case scenario. But the climate researchers of the University of Antwerp who are responsible for the project show no sign of panic. On the contrary.

‘This is better than we could dream of,’ says Jonas Lembrechts, who is the scientific coordinator of the project. ‘With CNidT we are investigating how gardens can arm themselves against extreme weather conditions. Given the trend of recent summers, the focus was on heat and drought. But our soil sensor, which records moisture and temperature, can tell us as much about wet and cold. Because of this summer’s exceptional situation, we are therefore happily switching the focus to extreme precipitation. It’s just the other side of the same coin.

For scientists, this is a golden opportunity. This is the wettest summer in two centuries, and just now we have 5,000 sensors in the soil all over Flanders. We were unexpectedly handed a unique dataset,’ says Lembrechts. ‘With unprecedented accuracy, we can map out how our gardens are able to accommodate large amounts of precipitation.’


Just how extreme this summer was can be seen from the graphs drawn by Stijn Van de Vondel. As a test case, the researcher had already installed a TOMST TMS-sensor in his Kempish garden last summer. This allows us to visually compare the wettest and one of the driest summers of the past century. ‘Except for a few June days, this summer was much wetter than the previous one,’ he says. According to the data from the Royal Meteorological Institute (RMI), June and July had exactly the same number of rainy days as the previous year. But when it did rain, a lot more fell from the sky. This is also evident from my soil sensor: the humidity level at the end of June shot up to 30 percent and has not dropped below that since, with peaks in July between 40 and 50 percent. Imagine a sandbox with half sand and half water in it: that’s a mud puddle. We were at the limit of what a soil can swallow in July.’

Soil temperature in a Flemish garden in 2020 (red) and 2021 (blue)

But contrary to popular belief, this summer was no cooler than the last. The temperature curves of 2020 and 2021 above are playing leapfrog. This pattern is also confirmed by the figures from the RMI. ‘Because of the rain, we have the idea that it is a thoroughly crappy summer,’ says Van de Vondel. But as far as the temperature is concerned, that’s not true: this drizzly summer was not colder than average. That too is relevant in the light of climate change: we won’t get really cold summers very often anymore.’


Concerning that extreme wetness, CNidT brings fascinating insights. ‘The RMI data tell us where exactly how much precipitation has fallen,’ says Van de Vondel. ‘The Vlaamse Milieumaatschappij has accurate data on groundwater levels. But there is a blind spot in between: how much of the precipitation that has fallen is actually stored in the soil and transported to the deeper layers of the ground, e.g. via our gardens? And what proportion flows away via sewers, canals and rivers?’

Copyright Dieter Telemans for De Standaard

For the first time, we are going to be able to fill in the missing link in detail and on a large scale,’ nods Lembrechts. We can indicate which gardens store a lot of water and which do not. And, importantly, why. Because there are often large differences between two gardens in the same municipality. Insights into these dynamics is essential if we are to pursue a good water policy.

From previous ecological research we know that the same factors that protect our lawns from extreme drought are also decisive in the fight against flooding. One hypothesis is that the degree of hardening in a garden or its surroundings plays a crucial role. ‘The degree of paving seems essential to determine how much a garden can buffer, and thus to what extent you can avoid the risk of flooding,’ says Lembrechts. ‘It determines how hard a garden has to work to handle the falling water. For example, in a highly sealed region with small gardens, each garden will have to swallow more. We’re trying to put that into numbers now.’

Whereas in Wallonia it was mainly the topography that determined the consequences of the flooding (extreme precipitation running down the slopes and converging at the lowest point in the valley), in Flanders it is mainly the large and spread-out paved surfaces that are the Achilles’ heel, in addition to the fact that we continue to build in flood plains.

But vegetation also explains how well a garden can buffer water. Lembrechts: ‘Rain sticks to the leaves of trees and plants, it always takes a while for the drops to fall through. This causes a delay in the peak of the water flow, which can make a crucial difference during a cloudburst. Trees and plants therefore form an initial buffer. Moreover, through their roots they suck some of the water out of the soil, and evaporate it through their leaves.’

4,100 Olympic swimming pools

De-watering, greening: the measures to be taken against drought and heat will also protect us against the consequences of extreme precipitation. Next month, the researchers hope to come up with accurate figures and insights into the sponge effect of our green spaces. ‘But already it is clear how important they are as a lever in the fight against climate change,’ says Van de Vondel. ‘During the mid-July flood, the garden complex, along with the parks and natural areas, buffered 4,100 Olympic-sized swimming pools of water, according to an initial estimate. That’s huge. That volume would otherwise have run off and put extra pressure on our sewers and roads. Every gallon of water sucked up by a garden results in less inconvenience during extreme rain events.’

Soil moisture in a Flemish garden in 2020 (orange) and 2021 (green)

The defense against the consequences of severe weather or rising sea levels is therefore not only in ‘gray infrastructure’ such as dikes, dams and sewers, but increasingly also in ‘green infrastructure’ such as gardens, wetlands, wadis and flood plains. The realization is dawning that we no longer need to defend ourselves against water, but that we must learn to live with water and the opportunities it offers. The data from CuriousNoses provides insight into how we can do that more efficiently.

This is actually a story of collective responsibility’, says Lembrechts. The question is not so much which Flemish garden functions best as a sponge or air-conditioning system, but how we can use the garden complex as a whole to optimally store water or cool cities. Some gardens buffer more than others, but each contributes its own bit. We don’t always realize it, nor do you see it from the street. But together we have a big impact. If we were to pave over our gardens and green spaces en masse, the news would be even more dramatic in the next extreme rain event. If we do the opposite, we can mitigate its impact. The decisions you make in your garden thus make a huge difference in economic and ecological cost, and most importantly in the human suffering involved.

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Kittens, kittens, kittens!

That wonderful feeling when my R-code can help the local animal shelter with their hundreds of kittens.

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Fostering kittens to health and to a safe home; getting as many as possible of the street and neutered

I have been monitoring the number of foster kittens in our local animal shelter for 4 years in a row now, keeping track of how many come in and go out. While it’s impossible to predict exactly how many and when they will come in, it’s clear that there is a strong seasonality to the kittens: by May it takes off with the first bottle-feeders, and things rapidly accumulate till mid July, when around 100 foster cuties at the same time are being nursed towards a good home.

Number of kittens fostered on each day of the year by the foster parents of the animal shelter, from 2018 to 2021

But then there was last year, 2020 (the red line in the curve above), a year we all know as quite unique, with a global pandemic keeping everyone at home. A year that was different in many aspects and, turns out, also in its foster kittens: the peak stayed out, with number of kittens in the shelter around 60 throughout the whole summer.

Our hypotheses? Either 1) the animal shelter was actually winning the fight against the feral cats, and numbers of kittens would go down further, or 2) kittens were there in 2020, but there was nobody to find them and bring them in, due to that wretched pandemic.

Cute and off the streets, that’s how we love our kittens

The important consequence of those very different hypotheses? When preparing for the summer of 2021, we needed to know how many foster parents would be needed. Basically: fewer (in case of hypothesis 1) or more (in case of 2).

We thus decided to keep very close track of the numbers, using the nice little graph above, that I could update repeatedly. In early May we already started to see the first signs: the black line was peaking upwards faster than it’s red precessor. That’s when the red flags already started to go off: we were likely heading for scenario 2) and had to bring in a lot more help: a massive flood of kittens, as all those unchecked feral cats from last year had started breeding.

Now, mid August, the second hypothesis is clearly confirmed: we are already 25% above the summer peaks from last year, and the foster families are scrambling to keep up. The global pandemic indeed left its footprint on our data for two years in a row

Luckily we came into the year hypothesis- and data-based, as now we were a lot better prepared and ready to react quickly!

If you run out of human foster parents, get the animal ones on board!

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