Range extension and conservation status of the rare Solanaceae shrub, Solanumconocarpum

Abstract Background The British Virgin Islands and the US Virgin Islands, two island groups located in the Caribbean archipelago, hold unique plant diversity and high endemism. Until recently, Solanumconocarpum was considered a rare plant species endemic to the island of St. John in the US Virgin Islands. Ongoing botanical surveys in this region are revealing new populations and refining our understanding of the distribution of these narrow endemic plant species. The objective of this paper is to assess the conservation status of S.conocarpum, including a review of its geographic range, population numbers, threats and conservation actions needed for its long-term survival. New information In this paper, we present new occurrences for S.conocarpum, extending its geographic range to a new island, Tortola and new territory, the British Virgin Islands. Despite this range expansion, this species is evaluated as Endangered (EN), based on Criteria B1b(iii,v)+2b(iii,v)+C2a(i), according to the IUCN Red List Categories and Criteria. The extent of occurrence (EOO = 46 km2) and area of occupancy (AOO = 20 km2) are highly restricted. On St. John (US Virgin Islands), the historically recorded individuals at Reef Bay, Europa Ridge and Sabbat Point are now considered extirpated due to disturbance from development compounded by invasive species, as well as the impact of feral ungulates and drought stress. These threats are impacting the species across the whole island of St. John and contributing to a continuing decline of suitable habitat, despite the island being a National Park. On the island of Tortola, the species occurs on unprotected lands subject to development and habitat modification and decline by feral ungulates. Based on these threats acting separately across the two islands, two locations were defined. The estimated total number of mature individuals ranges between 150 and 250, with the largest subpopulation at Nanny Point in the US Virgin Islands, containing 108 mature individuals. Conservation action, focused on protecting this species' habitat, is urgently needed.


Introduction
The Caribbean archipelago is a biodiversity hotspot with high levels of endemism and threatened taxa (Myers et al. 2000). The British Virgin Islands (BVI) and the neighbouring US Virgin Islands (USVI) are a group of Caribbean islands which share many botanical similarities, including several endemic plant species (Acevedo-Rodriguez 1996, Heller 2019. Solanum conocarpum Dunal was previously thought to be endemic to the island of St. John in the USVI (Acevedo-Rodriguez 1996). The species was described by Dunal in 1813, based on material collected by French botanist, Louis M. Richard at Coral Bay, St. John in 1787. The species was believed to be extinct as it remained uncollected for over a century until it was rediscovered by Pedro Acevedo-Rodríguez as part of his work on the Flora of St. John (Acevedo-Rodriguez 1996, U.S. Fish and Wildlife Service 2019). In 2002, a new subpopulation was discovered at Nanny Point on St. John, revealing many more individuals than initially thought (U.S. Fish and Wildlife Service 2019). In June 2018, a juvenile plant with vegetative characters matching the species was collected (M.A. Hamilton, #1758, DNA Silica Bank S3977, K!) during a botanical survey at Sabbath Hill on the island of Tortola (BVI). Later that year, a targeted survey to the same location was unable to locate the original plant; however, further exploration in the surrounding forest revealed several plants of S. conocarpum, including flowering ( Fig. 1) and fruiting (Fig. 2) individuals. Vouchers collected (N. Harrigan, #155, K000817185, K!; #156, K000817186, K!) confirmed the range expansion of this species to the island of Tortola (Heller et al. 2018). Despite belonging to different jurisdictions, the islands of Tortola (British Virgin 2 2 Islands) and St. John (US Virgin Islands) are separated by less than 2 km of water at their nearest points.
Solanum conocarpum is a small shrub which can grow up to 3 metres tall in the wild. The leaves are oblong-elliptic or oblanceolate, ranging in size from 3.5 to 7.0 cm long and 1.6 to 3.0 cm wide, coriaceous, glabrous, except for new growth and with a conspicuous orange to yellow midvein. The flowers are heterostylous (Fig. 3), growing in nearly sessile lateral or terminal cymes. The corolla is about 2 cm wide with five violet coloured petals. The fruit is a berry, ovoid conical in shape, green when immature and turning yellow when  Developing fruit on a recently discovered plant of Solanum conocarpum on the island of Tortola, BVI. Image by Thomas Heller. ripe ( Fig. 4) (Acevedo-Rodriguez 1996, U.S. Fish and Wildlife Service 2019, PBI Solanum Project 2020). Solanum conocarpum occurs in dry deciduous and coastal forests with a varied range of associated woody species that lack a characteristic species composition. The species usually grows as an understorey plant responding favourably to disturbance (Stanford et al. 2013, Lindsay et al. 2015, Heller et al. 2018. A habitat suitability model for this species, for the island of St. John, identified 695 hectares of high-quality habitat, 1,275 hectares of moderate-quality habitat, 2,912 hectares of low-quality and poor-quality habitat and 187 hectares of unsuitable habitat (Palumbo et al. 2016). Some of these areas have already been surveyed but a full validation of this model is needed (Monsegur, pers. obs. 2021).
Previous studies by Stanford et al. (2013) suggested that individuals of this species are self-incompatible, possiby due to stigmatic differences between flowers, rather than genetic-based self-incompatibility. However, recent observations of isolated, cultivated material have shown certain individuals to be self-compatible, producing copious fruits,  bearing viable seeds and producing abundant seedlings below the mother plant (U.S. Fish and Wildlife Service 2019). The lack of evidence of natural recruitment cannot be attributed to low seed viability as germination under greenhouse conditions has been recorded at almost 100% (Stanford et al. 2013). Under greenhouse conditions, the species can reach a reproductive size between 7 to 16 months from germination (Anderson et al. 2015;Gibney, pers. obs. 2021); however, this period is expected to be greater in the wild due to environmental stochasticity. In addition, exotic mammals are probably limiting seedling establishment by directly grazing on young plants and modifying the structure of the vegetation, which may also result in changes in microhabitat conditions that may affect seed germination and seedling recruitment of this species (

Ex situ conservation
There are regional ex-situ collections established on the island of St. John and at St. Georges Village Botanical Garden on the island of St. Croix, both in the USVI and at the These cuttings were propagated in perlite with a powder rooting hormone treatment. Once rooted, the cuttings were transferred to a commercial potting media. Seeds were also collected from the population located in Sabbath Hill on Tortola and sown in sterilised commercial potting media without any seed threatment and good germination success was recorded (Fig. 6). Flowers from cultivated plants seem to display a wider variation in size and colour than plants found in the wild. Plants cultivated in a private collection on St. John displayed flowers ranging from white ( Fig. 7) to purple (Gibney, pers. obs. 2021). However, white-flowered plants have never been observed in wild populations.
In the USVI, the US Fish and Wildlife Service is working with the National Park Service (NPS) and local partners, including Friends of the Virgin Islands National Park, on the propagation, population enhancement and species reintroduction on St. John. Additionally, the US Fish and Wildlife Service is also collaborating with Island Conservation (IC) on research to address the role of feral ungulates and invasive plant species on the lack of natural S. conocarpum recruitment (Island Conservation 2018).

Common name
The common name of S. conocarpum is "Marron Bacora" ( Acevedo-Rodriguez 1996). "Marron" from the French language means "wild", a term originally used to describe escaped enslaved people who were living in the wild. In the Taíno language, an Arawakan language spoken by the Taíno people who lived in the Caribbean, there is a similar word "Simaran" and, in Spanish, an equivalent term "Cimarron", both with a similar meaning. During the 18 and 19 centuries, the common name for sweet bananas used in the Virgin Islands was "Bacova". Many people detect a strong banana-like fragrance to the ripe fruit of S. conocarpum, which was presumably consumed by humans, like the other woody native Solanum species. It seems possible that the single-letter difference was a transcription error or a slight variation in pronunciation (Gibney, pers. obs. 2021).

Methods
To gather information for the following conservation assessment, collections from the K, NY and US herbaria and many literature records have been digitised. Field observations contributed additional information on distribution, preferred habitat, threats and population sizes. th th Figure 7.
Ex situ collection of Solanum conocarpum displaying a white flower. Image by Omar Monsegur.

Map of records (Google Earth):
Basis of EOO and AOO:

Basis (narrative)
The extent of occurrence (EOO) was calculated to be 46 km and the area of occupancy to be 20 km based on a 2 × 2 km cell size, using GeoCAT (Bachman et al. 2011

Locations
Two

Justification for number of locations
The number of locations was calculated to be two considering feral animals are the main threat for the survival of this species through grazing either directly of individuals or indirectly causing habitat degradation. These threats are acting separately across the two islands.

150-250
Decline ( (Heller et al. 2018), including five to six mature individuals. Genetic studies, which only included material from the USVI, revealed relatively high levels of genetic diversity and found significant genetic differentiation between the two largest known localities at Nanny Point and Reef Bay (Stanford et al. 2013). Given these genetic studies and the recently found subpopulation on the island of Tortola, eight subpopulations have been identified.

Terrestrial
Yes

Habitat (narrative)
This species' habitat is described as dry deciduous and coastal scrub forests with dry soils at lower elevations between 0 and 200 metres above sea level. This species usually grows as an understorey plant, responding favourably to disturbance (Lindsay et al. 2015, Heller et al. 2018.

Ecology and traits (narrative)
The generation length of this species is unknown and further research is needed into the species ecology and reproduction.

Justification for threats
This species is subjected to several threats. Across its range, feral animals, goats on Tortola (BVI) and goats, pigs, donkeys and deer on the island of St. John (USVI) have been documented to graze on this species foliage and damage the bark of mature trees (Fig. 8) (Heller et al. 2018, Island Conservation 2018. These feral animals are further affecting the quality of the habitat, by altering soil conditions, as well as being vectors for invasive species. In addition, deer have been recorded targeting the fruits and, thus, are suspected to be the main cause for the lack of natural recruitment observed in the wild ( Island Conservation 2018, U.S. Fish and Wildlife Service 2019). In the USVI, invasive Additionally, suitable habitat for S. conocarpum is being further fragmented because of urban development for residential and tourism infrastructure on Tortola (Heller et al. 2018). Catastrophic hurricanes associated with a changing climate are also suggested to be impacting this species' suitable habitat (Island Conservation 2018). In the BVI, it has been observed that the disturbance caused by the 2017 Hurricane Irma opened a pathway for the encroachment of invasive species, while on St. John, habitat modification has also been documented (Heller et al. 2018, U.S. Fish andWildlife Service 2019). Individuals at Nanny Point in USVI may also be affected by sea surge associated with hurricanes and sea level rise due to their close proximity to the coast (U.S. Fish and Wildlife Service 2019).

Conservation
In Place

Justification for conservation actions
This species has been the focus of several conservation initiatives, mainly in the USVI. Most known individuals occur within the Virgin Islands National Park boundaries, on St. John. A habitat suitability model was developed for St. John aiming to identify undetected populations and to identify reintroduction sites (Palumbo et al. 2016). There are ex-situ collections established regionally on the islands of Tortola, St. Croix, St. John and Puerto Rico, as well as other botanic gardens in the USA (Hamilton et al. 2018, Heller et al. 2018, Island Conservation 2018. Seeds have also been banked at Kew's Millennium Seed Bank and DNA samples are stored in Kew's DNA Bank. These ex-situ collections should be expanded to include material from both territories, from all subpopulations and from as many individuals as possible. Population genetics studies should equally be expanded to include more individuals and the newly discovered subpopulation (e.g. Tortola). There are ongoing efforts to propagate at least 100 individuals to enhance the known natural populations, assess the extent of invasive mammal species impacts and provide management recommendations for invasive mammals on the island of St. John (Island Conservation 2018, U.S. Fish and Wildlife Service 2019).

Conclusion
Despite many decades of botanical exploration, knowledge gaps on the native flora of many of the UK Overseas Territories (UKOTS) remain (Clubbe et al. 2020), highlighting the need for frequent and continued botanical surveys. For more than twenty years, Kew's UKOTs team and the National Parks Trust of the Virgin Islands (NPTVI) have been actively surveying the islands of the BVI Archipelago, consolidating botanical knowledge and assessing conservation needs. Over the past decade, Kew and NPTVI have also been working closely with regional partners, such as US Fish and Wildlife Service (USFWS), the Puerto Rico Department of Natural and Environmental Resources and the University of Puerto Rico to survey, study and conserve threatened and endemic plant species. Our collaborative and intensive survey efforts are now resulting in many new discoveries: new species records, range extensions and new plant records for the region. The discovery of S. conocarpum on Sabbath Hill on the island of Tortola is an example of the benefit of continued regional surveying efforts.
Strong regional collaboration is needed to conserve species such as S. conocarpum that cross international borders and prevent their extinction. Future conservation efforts should prioritise the exclusion or population control of feral animals within the species' habitat as this is the main threat to the viability of S. conocarpum populations. In addition, research on population genetics across the species range is needed to provide information for future propagation and reintroduction efforts. For the time being, this species is assessed as Endangered (EN), based on Criteria B1b(iii,v)+2b(iii,v)+C2a(i), according to the IUCN Red List Categories and Criteria (version 3.1) and guidelines (IUCN Standards and Petitions Committee 2019).
Service. Use of trade names in this article does not imply endorsement by the United States government.