idw – Informationsdienst Wissenschaft
Nachrichten, Termine, Experten
Nachrichten, Termine, Experten
Carnivorous plants of the genus Pinguicula (butterworts) from Mexico apparently use the same water-saving photosynthesis type as many succulent plants, such as cacti. Botanists from the SNSB and LMU Munich have now demonstrated CAM photosynthesis in carnivorous plants for the first time. The research team has published its findings in the journal Plant Biology.
Most carnivorous plants colonize wet, nutrient-poor habitats such as bogs or swamps. One of the few exceptions is the genus Pinguicula, known as butterworts: more than half of the approximately 110 species of butterwort known worldwide originate from the mountainous regions of subtropical Mexico. There, these small carnivorous plants thrive on rocky soils that are very dry for at least half of the year. Some of these species share their habitats with other typical “desert plants” such as cacti, agaves, and hechtias. Butterworts have so-called sticky traps, i.e., their leaves are covered with small glandular hairs that secrete sticky, glistening drops of a water-based trapping mucus.
Until now, it was unknown how the plants compensate for the lack of water in their dry habitats and still have enough water left to produce the sticky mucilage. A team of researchers from the Botanische Staatssammlung München (Bavarian State Collection for Botany) and the Botanical Garden Munich-Nymphenburg, which are part of the Bavarian State Collections of Natural History (SNSB), and LMU Munich has now investigated this in several Mexican succulent species cultivated in the greenhouses of the Botanical Garden. The experiments were conducted by Joris Fleck as part of his master's degree at LMU Munich. He transferred the plants from their “comfort zone” in the greenhouse to climate chambers in which the growing conditions of Mexico's dry season were simulated. The photosynthesis of the plants under heat and drought stress was examined. The result was surprising: Butterworts apparently adapt their metabolism to drought. They switch to what is known as CAM photosynthesis (CAM = Crassulacean Acid Metabolism), which is familiar from many drought-tolerant, succulent plants. In these plants, the stomata of the leaves remain closed during the day, so that CO2 can not be absorbed for photosynthesis, but the plants also do not lose water through evaporation during the hot, dry daytime. The stomata open only at night and the plant “breathes” in CO2, which is stored. During the day, the plant draws on this carbon reserve from the night.
“We did not expect these results. We were not previously aware of the CAM photosynthesis pathway in carnivorous plants, not even among any close allies of the family Lentibulariaceae, to which butterworts belong,” says study leader Professor Gudrun Kadereit, director of the Bavarian State Collection for Botany, the Botanical Garden Munich and chair of systematic botany at LMU Munich. “This brings the number of plant families in which CAM photosynthesis has evolved independently to 39.”
In view of climate change, the genus Pinguicula could be an interesting study group for further research. These carnivorous plants have evolved from moisture-loving marsh plants to drought-tolerant species. “So far, we have only been able to detect CAM photosynthesis in butterwort species from the evolutionarily young Mexican lineages of Pinguicula sections Agnata and Orcheosanthus, but not in any other species within the genus,” reports carnivorous plant expert Dr. Andreas Fleischmann from the Bavarian State Collection for Botany in Munich. “The butterwort species found in European Alps on moist soils and in calcareous fens show no signs of this specialized photosynthesis pathway in our studies.”
The current research results demonstrate the scientific importance of living collections in botanical gardens, as this study would not have been possible without the rich collection of cultivated carnivorous plants in the Munich-Nymphenburg Botanical Garden.
Prof. Dr. Gudrun Kadereit
Direktorin Botanische Staatssammlung und Botanischer Garten München-Nymphenburg
E-Mail: kadereit@snsb.de
PD Dr. Andreas Fleischmann
Kurator für Blütenpflanzen
Botanische Staatssammlung München (SNSB-BSM)
Tel.: 089 17861 240
E-Mail: fleischmann@snsb.de
Fleck, N.J., Messerschmid, T.F.E., Fleischmann, A., Ferrari, R.C. and Kadereit, G. (2025), Yes, we CAM! First evidence of CAM photosynthesis in a carnivorous plant. Plant Biol J. https://doi.org/10.1111/plb.70128
https://www.snsb.de - Staatliche Naturwissenschaftliche Sammlungen Bayerns (SNSB)
https://bsm.snsb.de - Botanische Staatssammlung München (SNSB-BSM)
Insect trap and water storage - the succulent leaves of Pinguicula esseriana from Mexico.
Source: Andreas Fleischmann
Copyright: SNSB
Pinguicula agnata often grows with succulents such as cacti and agaves in Mexico.
Source: Fernando Rivadavia
Criteria of this press release:
Journalists, Scientists and scholars, Students, Teachers and pupils, all interested persons
Biology, Environment / ecology, Oceanology / climate
transregional, national
Miscellaneous scientific news/publications, Research results
English
Insect trap and water storage - the succulent leaves of Pinguicula esseriana from Mexico.
Source: Andreas Fleischmann
Copyright: SNSB
Pinguicula agnata often grows with succulents such as cacti and agaves in Mexico.
Source: Fernando Rivadavia
You can combine search terms with and, or and/or not, e.g. Philo not logy.
You can use brackets to separate combinations from each other, e.g. (Philo not logy) or (Psycho and logy).
Coherent groups of words will be located as complete phrases if you put them into quotation marks, e.g. “Federal Republic of Germany”.
You can also use the advanced search without entering search terms. It will then follow the criteria you have selected (e.g. country or subject area).
If you have not selected any criteria in a given category, the entire category will be searched (e.g. all subject areas or all countries).
