Posted on 22 January 2020
Helping the Smallest and Most Vulnerable Settlements to Prepare for Climate Change
Increasingly extreme temperature, hydrology, or other meteorological phenomena are some of the most widely predicted impacts of climate change. This applies to Hungary as well, where rainfall is already limited (potential evapotranspiration
exceeds precipitation throughout most of the country), and climate models predict a more unbalanced distribution of precipitation for the next decades to come. To put it in other words, we will face longer periods of droughts, and more frequent and more extreme rain and flooding events
. Nature-Based Water Retention Measures (NWRMs) offer one of the cheapest, and most nature friendly ways to adapt to these new circumstances.
At Püspökszilágy, a small settlement nestled in the Cserhát Hills of in northern Hungary with just under 900 inhabitants, sudden, intense precipitation events cause flash-flooding every two to five years. The floods are short in duration, but the devastation they leave behind is no smaller than that of a long-duration flood event. The situation is worsened by inappropriate land-use
on the upper watershed, where large unfragmented parcels of arable land increase the velocity of runoff, which in turn leads to intense soil erosion and low infiltration. At the same time, summer months often bring intense droughts and heatwaves, negatively affecting agriculture, forestry, and the inhabitants of the village.
Under the LIFE-MICACC Project, which aims at increasing the adaptation capacity of small Hungarian settlements to climate change, we have created a 1 ha side-reservoir
beside the Szilágyi Stream which helps retain water from flash-flood events
. As such, it is capable of protecting both village infrastructure from flash flooding, and mitigates summer droughts and heatwaves by replenishing groundwater resources and cooling the micro-climate through evaporation. On the upper watershed, leaky wooden check-dams were installed in erosional gullies to halt soil erosion and decrease the speed at which water rushes into the settlement.
At Ruzsa, another project site situated on the elevated sand ridge running between the Duna and Tisza Rivers (Homokhátság), water is extremely scarce. The minuscule rainfall in the area is quickly drained by sandy soils. Precipitation has been decreasing for decades, and the old drainage canal created in the 1970s still drains any excess water away from the area that may appear. Any available surface water is a treasure here, even treated sewage and other effluents from water purification plants. We created a small lake in the middle of the settlement
to retain effluent water from a nearby drinking water purification plant.
Meanwhile, groundwork is being carried out in Bátya and will also soon commence in Rákócziújfalu, so that two new nature-based prototypes will be up and running before the vegetation period and bird breeding season commences. Further solutions are under preparation.
These NWRM solutions are potentially the cheapest way to adapt to future hydrological extremes and heat-waves, to benefit both nature and people.
Klara Kerpely, WWF-Hungary
, Tel: +36 30 233 7368
Mátyás Farkas, WWF-Hungary, firstname.lastname@example.org
, Tel: +36 30 341 1949
Project website: https://vizmegtartomegoldasok.bm.hu/en
Related article: Climate Change Poses New Water Management Challenges