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Rediscovering Carduncellus matritensis: assessing the conservation status of an Iberian endemic

Published online by Cambridge University Press:  19 January 2023

Enrique Luengo
Affiliation:
Asociación ARBA–Albergue Juvenil ‘Richard Schirrmann’, Madrid, Spain
Juan Manuel Martínez-Labarga*
Affiliation:
Departamento de Sistemas y Recursos Naturales, E.T.S. de Ingeniería de Montes, Forestal y del Medio Natural, Universidad Politécnica de Madrid, Madrid, Spain
Rubén de Pablo
Affiliation:
Instituto de Educación Secundaria el Carrascal, Madrid, Spain
Alfonso Susanna
Affiliation:
Botanic Institute of Barcelona, Spanish Council for Sientific Research (IBB, CSIC–Ajuntament de Barcelona), Barcelona, Spain
Roser Vilatersana
Affiliation:
Botanic Institute of Barcelona, Spanish Council for Sientific Research (IBB, CSIC–Ajuntament de Barcelona), Barcelona, Spain
*
(Corresponding author, juanmanuel.martinez@upm.es)

Abstract

The plant Carduncellus matritensis (Cardueae, Compositae) was formerly known from only a single locality: Cerro Negro in Madrid Province, Spain. It is one of the six endemic species of the Spanish flora considered to be extinct. The causes of its presumed extinction were anthropogenic: the growth of the city of Madrid subsumed the locality into the city, such that Cerro Negro is now a railway station. During 2021–2022 we discovered three new populations c. 50 km south of the type locality, with 130–166 mature individuals. Habitat fragmentation and degradation are the most significant threats facing the three populations. We categorize the conservation status of the species as Critically Endangered according to the IUCN Red List criteria. To avoid the loss of this species, we recommend both in situ (creation of micro-reserves) and ex situ (seed storage) conservation measures.

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Article
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Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of Fauna & Flora International

The genus Carduncellus Adans. (Cardueae, Compositae) includes nearly 25 perennial species (following the taxonomic criterium of Vilatersana et al., Reference Vilatersana, Susanna, Garcia-Jacas and Garnatje2000; López González, Reference López González2012), distributed almost exclusively in the Iberian Peninsula and North Africa and including many endemic taxa. Carduncellus matritensis (Plate 1a,b) was described by Carlos Pau based on herbarium specimens collected by Juan Isern (Pau, Reference Pau1904). It is a species formerly known to have inhabited only a single locality: Cerro Negro in Madrid province, Spain (Fig. 1). It is one of the six endemic species of Spanish flora listed as extinct and it had not formerly been collected since 1935 (Bañares et al., Reference Bañares, Blanca, Güemes, Moreno and Ortiz2004; Moreno, Reference Moreno2008). The cause of its extinction was the growth of the city of Madrid: during 1956–2005 the human population increased by > 225%, and the area covered by the infrastructure of Madrid increased by > 600% (de Pablo et al., Reference de Pablo, Luengo, Meliá-Vaca and Martínez-Labarga2017). Habitat fragmentation and habitat disturbance are two significant factors that increase extinction risk (Hanski, Reference Hanski1998). The taxonomic status of C. matritensis has been disputed because of the scarcity and poor preservation of herbarium material, which led to the subordination of C. matritensis either under Carduncellus pinnatus (Desf.) DC. (Cutanda, Reference Cutanda1861; Rivas Goday & Rivas Martínez, Reference Rivas Goday and Rivas Martínez1967) or Carduncellus monspelliensium All. (López González, Reference López González2012; Mateo Sanz & Crespo, Reference Mateo Sanz and Crespo2015).

Fig. 1 Locations of the type locality of Carduncellus matritensis and of the three populations discovered in 2021–2022 in the Province of Toledo, Spain.

Plate 1 Carduncellus matritensis: (a) plant, (b) detail of bracts: left arrow, cucullate appendages in intermediate bracts; right arrow, external bracts, (c) habitat in Cerro de Magán, (d) habitat in Villaluenga de la Sagra. Photos: E. Luengo (a,c) and A. Susanna (b,d).

We discovered three new populations of C. matritensis during May 2021–May 2022 in Toledo Province, c. 50 km south of the type locality (Fig. 1), highlighting the importance of botanical exploration even in suburban areas. Following its rediscovery, we examined specimens of C. matritensis in three herbaria (BC, MA and MAF) and revised the description of the species to confirm its identity. The new specimens matched C. matritensis, and with high-quality living material now available we reject the subordination of this species under either C. monspelliensium or C. pinnatus: C. matritensis is a separate, well-defined species (Supplementary Fig. 1). The capitula of C. matritensis are subtended by a verticil of very large bracts with green leaf-like limbs (Plate 1b), which are missing from the heads of C. monspelliensium and C. pinnatus. Bracts in the capitula of C. matritensis have very large, showy, cucullate appendages (Plate 1b); even though C. monspelliensium bracts have cucullate appendages, they are much smaller and are usually limited to the innermost row. The leaves are also different, especially from C. pinnatus, a North African and Sicilian species with leaf segments disposed at almost 90° from the rachis. Preliminary DNA sequencing supports this statement (R. Vilatersana et al., 2022, unpubl. data). During our herbaria searches we located two additional entries for C. matritensis in MAF, collected from the type locality in 1968 and 1972. Therefore, the extinction of C. matritensis in the Cerro Negro occurred later than previously presumed.

Carduncellus matritensis is a hemicryptophyte endemic to magnesium-rich expansive clays. These clays are rare worldwide but in the Iberian Peninsula they are frequent in the Tajo River trench (in south-south-east Madrid and the Sagra region, Toledo; Fig. 1; Domínguez Díaz et al., Reference Domínguez Díaz, Brell Parladé, Doval Montoya and García Romero1997), which experiences a mean annual rainfall of 300–400 mm (Chazarra et al., Reference Chazarra, Mestre Barceló, Pires, Cunha, Mendes and Neto2011). Its few known populations are found in deep, fertile soils in topographically depressed terrain, at the base of hills or in dry meadows of therophytes with specialized hemicryptophytes such as Cynara tournefortii Boiss. & Reut. and Klasea flavescens (L.) Holub (Luengo et al., Reference Luengo, de Pablo, Meliá-Vaca and Martínez-Labarga2017). We classify these soils as vertisols based on their physical characteristics: high expansiveness when wet, with an increase in volume > 10%, and in the dry season the appearance of wide shrinkage cracks that cause strong vertical mixing of the edaphic profiles, rapid desiccation in profile depth and root breakage. Within the potential distribution area of the species (787 km2; Fig. 1) almost all of the non-urban land with this soil type is cultivated, with such cultivation being incompatible with the presence of the species. Other associated taxa, such as C. tournefortii, are also threatened by this intensive agriculture.

We counted > 250 mature individuals (130 in 2021 and 166 in 2022) of C. matritensis, with c. 80% of individuals in a single population (Table 1) and only c. 10% of individuals flowering in 2022. However, conducting a census is not straightforward. Firstly, this species shows clonal growth, which makes differentiating between genets and ramets difficult. We estimated the numbers of individuals by considering each patch of tangled rosettes with one or several capitula as a single genet. Secondly, both the development and reproduction of individuals of this species are conditioned strongly by the presence of spring rainfall, which causes significant oscillations in population size. All known populations of this species are subject to significant anthropogenic pressures (roads, industrial estates, intensive agriculture; Plate 1c,d) that, in combination with stochastic environmental and demographic factors, increase the risk of the extinction of this species.

Table 1 Characteristics of the three newly discovered populations of Carduncellus matritensis.

1 Only in the 2022 census.

Our findings support a change in the conservation status of C. matritensis from Extinct (Bañares et al., Reference Bañares, Blanca, Güemes, Moreno and Ortiz2004) to Critically Endangered based on IUCN criteria (IUCN, 2012) B1ab(i,ii,iii) and B2ab(i,ii,iii) because its extent of occurrence is < 100 km2 (B1) and area of occupancy is < 10 km2 (B2), with estimates of 5 km2 and 4,000 m2 respectively, it is severely fragmented (a/b) and there is continuing decline of extent of occurrence (i), area of occupancy (ii) and habitat quality (iii) (Plate 1c,d). We do not yet have numerical data on population evolution to assess the species based on other quantitative IUCN criteria (i.e. the A and E categories); however, because of the intense transformation of this area since at least the 1970s we presume there has been a significant reduction of the population size and/or the disappearance of (sub)populations. In addition, the main causes of this reduction (e.g. urban pressure and the aggressive nature of intensive agriculture) continue. The species now also faces a new potential threat in the form of the proliferation of photovoltaic solar plants throughout this region, with some having been installed recently and others projected to be installed in areas suitable for the species. Given the small number of populations and individuals of C. matritensis (Table 1), measures need to be taken to ensure the populations remain viable. In situ conservation will require the creation of micro-reserves (Laguna, Reference Laguna2005), which are an effective mechanism to protect small areas. One advantage of this approach in this case is that it is already employed by the Autonomous Government of Castilla-La Mancha, which is legally in charge of the protection of C. matritensis. We have now stored seeds of this species at the Germoplasm Bank of the Royal Botanic Garden of Madrid, for future reintroductions or reinforcements. In addition, we recommend further field research to locate any potential additional populations, and research on population genetics and demography, to support the design of long-term conservation strategies for this species.

Acknowledgements

We thank the curators of the herbaria BC, MA and MAF; the germoplasm bank of the Royal Botanic Garden of Madrid; and Lafargue-Holcin Mining Co., especially the geologist María Pilar Gegúndez, for their help in protecting populations of C. matritensis from further damage.

Author contributions

Study design: all authors; fieldwork: EL, JMM-L, RdP; writing: all authors.

Conflicts of interest

None.

Ethical standards

This research abided by the Oryx guidelines on ethical standards.

Footnotes

Supplementary material for this article is available at doi.org/10.1017/S0030605322001296

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Figure 0

Fig. 1 Locations of the type locality of Carduncellus matritensis and of the three populations discovered in 2021–2022 in the Province of Toledo, Spain.

Figure 1

Plate 1 Carduncellus matritensis: (a) plant, (b) detail of bracts: left arrow, cucullate appendages in intermediate bracts; right arrow, external bracts, (c) habitat in Cerro de Magán, (d) habitat in Villaluenga de la Sagra. Photos: E. Luengo (a,c) and A. Susanna (b,d).

Figure 2

Table 1 Characteristics of the three newly discovered populations of Carduncellus matritensis.

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