An international team of botanists have discovered two striking new species of carnivorous plants in the Andes of Ecuador
The team of botanists from Ecuador, Germany, and the United States has described the two striking new species of carnivorous plants as part of the butterworts (genus Pinguicula), a group of flowering plants with about 115 species that can catch and digest small insects with their sticky leaves.
Whereas the majority of butterwort species is distributed in the northern hemisphere, these new species were discovered in the high Andes of southern Ecuador, close to the border with Peru.
Carnivorous plants use animals (usually small insects) as an additional source of nutrients to compensate for the nutrient deficiency of the substrate they’re growing in. This gives them a competitive advantage over other plants and enables them to thrive in challenging habitats.
The tropical high Andes have a variety of such habitats, for example marshland and rocky slopes covered in constant rain and clouds.
The two new species described in the study, Pinguicula jimburensis and Pinguicula ombrophila, were found on the shore of a highland lagoon at 3,400m and on a near-vertical rock face at 2,900m, respectively.
Their small-scale habitats lie within the so-called Amotape-Huancabamba zone, which encompasses large portions of southern Ecuador and northern Peru.
This area is characterised by exceptional biodiversity, due in part to the fact that the rugged terrain and varied climate of the Andes provide so many microhabitats.
A few dozen plants
Senior author Tilo Henning of Leibniz Center for Agricultural Landscape Research (ZALF), who is a specialist in this plant family in this region, said: “And as small and scattered as the species’ suitable habitats are, so is the species composition.”
His colleague Álvaro Pérez of the Pontifica Universidad Catolica del Ecuador (PUCE) and his team were the first to discover the plants. They then got in touch with Henning.
Henning added: “Both of these new species are only known from a single location, where only a few dozens of plant individuals occur in each case.”
For one of them, only one population with about 15 mature individuals was discovered, making it vulnerable even if it is hidden in an isolated, difficult-to-access area.
This narrow endemism (limited distribution in a particular area) is typical of the Amotape-Huancabamba zone, and there are many more new plant and animal species awaiting discovery, Henning says.
With the description of these two new species, the number of Pinguicula species recorded in Ecuador has tripled, as previously only P calyptrata was known, discovered by none other than Alexander von Humboldt.
The authors are convinced that there are many more new species awaiting formal scientific recognition but admit that lately, it has been a race against time.
“The results presented in this study show that the assessment of the Neotropical biodiversity is far from complete. Even in well-known groups such as the carnivorous plants, new taxa are continuously discovered and described, in particular from remote areas that become accessible in the course of the unlimited urban sprawl,” Henning, Pérez, and their colleagues write in a scientific article dedicated to the new plants.
“This is both encouraging and worrying at the same time.
“Relentless urban sprawl and the accompanying destruction of habitats pose a massive threat to biodiversity in general, and to the tightly-knit and specialised organisms that depend on their fragile microhabitats in particular,” Henning points out.
Although the two new species are relatively safe from direct human interference – as they both occur within protected areas – human-induced climate change is increasingly affecting ecosystems regardless of location, especially those that rely on regular precipitation, such as mountain wetlands.
The dependence on a constant climate is even reflected in the name of one of the two new species: Pinguicula ombrophila means ‘rain-loving butterwort’, as the plant prefers very wet conditions, receiving moisture from the waterlogged paramo-soil and enjoying the frequent rain and fog typical for this area.
The research by Henning, Pérez, and their colleagues is published in PhytoKeys.
Image 1: Photograph of Pinguicula jimburensis sp. nov. © Kabir Montesinos. (CC BY).
Image 2: Photograph of Pinguicula ombrophila sp. nov. © Álvaro J Pérez (CC BY).