Results
Our revised checklist of alien seed plants in D.R. Congo (Supplementary Information S1) includes 426 species i.e., 182 casuals (42.5%), 244 naturalised (57.5%) of which 80 (19%) are invasive. These are represented by ca. 20,000 specimens in collections. The 20 most abundant species are listed in Table 1. The precise identity of a few taxa is uncertain (Bellucia cf. pentamera, Cecropia cf. pachystachya, Gnaphalium cf. pensylvanicum, Taraxacum sp., Vicia sativa s.l.)) and further taxonomic work is needed.
Table 2 compares the revised checklist with previous databases. Only 194 out of 397 species in GRIIS list and 254 of 522 species in GLoNAF list are confirmed as alien species occurring outside cultivation in D.R. Congo. Many species in previous databases have been excluded for different reasons. First, for a total of 168 species (149 species in GRIIS and 159 species in GLoNAF), all specimens in collections appear to have been collected in botanic gardens, agronomic experimental stations, amenity gardens or otherwise cultivated specimens (Supplementary Information S2). BR collections comprise quite many specimens collected in the botanic gardens of Kisantu and Eala. For a few of these, however, collecting information indicates that the species has escaped from cultivation in the garden, and these have been accepted in our list. Secondly, a total of 88 species in previous databases are native to D.R. Congo (28 in GRIIS, 83 in GloNAF) (Supplementary Information S3). For 12 species, the native range is not known with certainty and these have been accepted in the introduced list as “cryptogenic” (Supplementary Information S1).
Thirdly, for 36 taxa, there is no material evidence for occurrence in D.R. Congo, and previous records were likely based on material errors, including wrongly geolocalised specimens, or specimens from neighbouring countries (Rwanda and Burundi), or misidentification (Supplementary Information S4).
230 species in our list were not recorded in GRIIS, and 169 not in GLoNAF, and 158 species are reported in neither list. However, not all of these are new to the alien flora of D.R. Congo because many had previously been reported as alien in D.R. Congo by POWO and/or the FAC. Forty-four species had never been reported in D.R. Congo hitherto, of which 13 are naturalised (Supplementary Information S5).
Taxonomic assemblage
Seventy-six families are represented among aliens. The five most species-rich families are Fabaceae (65 species, 15%), Asteraceae (47, 11%), Solanaceae (40, 9%), Poaceae (36, 8%) and Amaranthaceae (20, 5%) comprising together almost 50% of alien species (Fig. 1). The proportion of naturalised species is larger in Asteraceae compared to the whole alien flora (70% vs 57.5%); the proportions of invasive species vary among the top 5 families with Asteraceae (16 invasive species i.e., 34% of all introduced Asteraceae) much overrepresented among invasive species (30%) i.e., a much larger proportion than in the whole alien flora (19% invasive). The most species-rich genera are Solanum (19 species), Ipomoea (11), Senna (10), Euphorbia (8), Amaranthus (8), Paspalum (7) (Supplementary Information S1).
Life forms
Annual herbaceous species are the most frequent life form (158 species, 37%), followed by perennial herbaceous (94 species, 22%) (Fig. 2). The proportions of naturalised + invasive vary significantly among life forms (χ2obs = 24.121, d.f. = 10, P < 0. 01) being markedly larger for annual herbaceous (60%) and perennial herbaceous (63%) species compared to trees and shrubs (47% together). Aquatic species (12) comprise the smallest group.
Phytogeographic assemblage
The Americas are by far the most frequent source continent (65%), far ahead of all other continents (Fig. 3). The proportion of naturalised and invasive species varies among source continents (χ2obs = 38.73, d.f. = 10, P < 0.001). 27% of American aliens in D.R. Congo are invasive i.e., a much larger proportion than for all other origins (5%). Seventy-five invasive species in D.R. Congo are from the Americas vs. only 8 invasive aliens from other regions.
Number of specimens and earliest record date
The number of specimens in collection ranges from 1 to 553 (Ageratum conyzaeoides). The earliest collection date is 1869 (Schwenckia americana) and the most recent new record is 2010 (Stachytarpheta cayennensis) (Supplementary Information S1). The number of specimens increases significantly with time since first record (Fig. 4). When controlling for time, invasive species tend to have larger numbers of specimens compared to the rest of aliens.
The cumulated number of species has increased regularly in the first half of the 20th century, reaching a plateau after 1960 (Fig. 5). As few as 31 new species have been added to the alien flora after 1960.
Distribution within D.R. Congo
Specimens in collections provide the only reliable, verifiable evidence for effective presence and status (cultivated/wild) in D.R. Congo. A substantial number of records in previous lists are not supported by voucher materials. A few of these are material errors, including specimens collected in neighbouring countries (Burundi, Rwanda). Due to specimen mislabelling, several species have long been included in the flora of D.R. Congo while they were in fact collected in China (Robbrecht et al. 2021). Specimens in collection allowed us to detect several identification errors and wrong geolocalisation (Supplementary Information S4). Quite a few native species were also included in error in previous lists (Supplementary Information S3).
Our new list comprises many species that were not included in previous databases. Not all of these, however, represent additions to the alien flora of D.R. Congo, because they were already recorded as alien in D.R. Congo in Plants of the World Online. Extensive data mining from collections guided by literature search has allowed us to uncover forty-four species that had never been reported for D.R. Congo hitherto (Supplementary Information S5).
Alien species richness
Based on the 522 naturalised species in GloNAF Pyšek et al. (2017) estimated the proportion of alien species in the flora of D.R. Congo to be 4.5%. Based on our revised checklist, the proportion of naturalised species is 2.3% (3.9% when including casuals). The naturalised flora of D.R. Congo appears to be relatively species-poor, in comparison to global patterns. Based on the species richness – area relationship in Pyšek et al. (2017), the expected number of naturalised species in D.R. Congo is ca. 1000 species i.e., four-fold the actual number (two-fold when including casuals). Second, based on the correlation between species richness in the alien and the native flora (Pyšek et al. 2017), the expected number of naturalised species is 457 species (for 11,000 native species), higher than the actual number (244), even when including casuals (425). D.R. Congo is obviously not a hotspot of alien species richness. These figures fit in well with the generally low alien species richness in tropical regions (Fine 2002). Higher intrinsic resistance of tropical ecosystems could be due to “fewer available free ecological niches, faster recovery of vegetation after disturbance or a lower introduction rate” (van Kleunen et al. 2015). Factors accounting for relatively low number of invasive species in African savannas were discussed by Foxcroft et al. (2010). The low level of economic development and the poor transport infrastructure in D.R. Congo are certainly also limiting factors (Essl et al. 2019).
However, our alien list is likely conservative for different reasons. First, some species, represented in collections only as specimens from cultivation, may actually also exist as garden escapes. Botanic gardens potentially represent important sources of alien plant introduction, especially in the tropics (Dawson et al. 2008). Naturalisation from botanic gardens in D.R. Congo has been circumstantially reported (Kembelo 1996; Binggeli 2011). Field observations in Congolese botanic gardens and neighbouring areas could reveal many more naturalised species than accepted here. Second, herbarium collections have poor coverage of recent decades, a well-known sampling bias in central Africa (Meyer et al. 2016). The cumulated number of alien species shows a plateau in the last three decades (Fig. 5), with very few additions after 1960, most likely due to decreasing sampling effort. The same pattern of saturation was previously found for Ghana and Zimbabwe (Ansong et al. 2019; Maroyi 2012). This contrasts with the lack of saturation in the accumulation of alien species worldwide (Seebens et al. 2016). Species recently introduced in D.R. Congo are certainly underrepresented in collections and new collecting efforts should be encouraged.
Native vs. alien; naturalisation and invasiveness
Our assessment of naturalisation is likely conservative. Evidence for naturalisation cannot be derived from herbarium specimens. Specimen number is not always a reliable indicator of naturalisation success, because a species can be naturalised only locally. Several alien species appear to have naturalised in botanic gardens, from which they have expanded to neighbouring regions (Musa acuminata, Cecropia sp., Rivina humilis, Petiveria alliacea …). On the other hand, some species represented by large number of specimens in collections are still not considered as naturalised by recent floras e.g., Solanum aethiopicum (Bikandu et al. 2020). Interestingly, a few species that were explicitly reported as being naturalised locally have not been collected for a very long time (e.g., Musa acuminata in Yangambi), suggesting that such species have gone extinct or have failed to spread from their naturalised population. On the contrary, other species naturalised in botanic gardens, have spread quickly to neighbouring regions (e.g., Cecropia cf. pachystachya in the region of Eala (Hauman 1948)). The (past and present) role of botanic gardens in the introduction of alien species in D.R. Congo deserves further investigation.
In contrast to the relatively low number of alien species, the number of invasive species (80) appears to be quite high in comparison to expectations based on the number of naturalised species (21). This could be due to our too inclusive criterion used in this work. However, our estimation is remarkably close to the 84 invasive species in Zimbabwe (Maroyi 2012). Interestingly, most of the species considered here as invasive were already recorded in D.R. Congo over a century ago. This suggests that long residence time is a most important determinant of invasiveness (Ahern et al. 2010; Philips et al. 2010). However, when controlling for time since first record, invasive species tend to have more specimens in collections. This could indicate that these species indeed have a higher spread rate, or, alternatively, that they were introduced long before the first specimen was collected.
Taxonomic, phytogeographic and life form spectrum
Patterns in the alien flora of D.R. Congo are compared with the global patterns (Pyšek et al. 2017) and with regional patterns in two other sub-Saharan countries i.e., Ghana, in the Guineo-Congolian region (Ansong et al. 2019) and Zimbabwe in the Zambezian region (Maroyi 2012) (Table 3). The alien flora is richer in Fabaceae (17%) and poorer in Poaceae (9%) than global patterns. A prominent contribution of Fabaceae was also found in Ghana by Ansong et al. (2019). The large contribution of Solanaceae (ranking 3d, 9% of aliens) is a striking feature of the alien flora. Many Solanaceae species have been introduced to D.R. Congo as edible plants (leaves and/or fruits) and have often escaped from cultivation (Bikandu et al. 2020). However, in terms of invasive species, Asteraceae stand out with 16 species, most likely due to their relatively high dispersal capacity (anemochory).
Concerning life forms, the contribution of annuals (38%) is markedly higher than global patterns (23%) and very similar to Zimbabwe (37%); in Ghana, the bias towards to annuals is much less marked (Table 3). Trees and shrubs comprise 22% of aliens, very similar to Zimbabwe. The large contribution of annuals in Zimbabwe and D.R. Congo could be accounted for by the long dry season in the Zambezian ecoregion (southern D.R. Congo). The bias towards annuals is even more striking for invasive species, with 42 invasive annuals vs. only 15 invasive trees and shrubs. However, as pointed out by Bordbar and Meerts (2020), life history patterns are strongly family-specific in the alien flora of D.R. Congo, with trees and shrubs much overrepresented among alien Fabaceae, and annuals much overrepresented among alien Asteraceae, reflecting contrasting introduction pathways (i.e., deliberate introduction for forestry purposes for Fabaceae, vs. accidental introduction of weeds for Asteraceae).
Concerning the region of origin, the overwhelming contribution of the Americas (65%), much larger compared to the global scale (30%) is in line with Ghana and Zimbabwe. This is accounted for by a long history of transatlantic exchanges of crops (and contaminant seed) between Africa and the Americas, dating back to the 16th century (Wild 1978) and possibly even earlier (Gallagher 2016). The Americas are even more overrepresented among the most widespread species (Table 1) and among invasive species (Fig. 3), as found in Ghana.
Considering the history of European colonisation, the virtual lack of European species is striking, as previously found in Ghana (Ansong et al. 2019). Climatic mismatch is likely the cause. This hypothesis is supported by the observation that quite a few cryptogenic species with a mostly temperate distribution, occur in D.R. Congo only at high elevation (Afromontane belt in the Albertine Rift.). Whether such populations are native or were introduced by humans is difficult to ascertain without evidence from molecular markers. Some of these mostly high-altitude species in D.R. Congo also have ruderal populations at lower elevation (e.g., Poa annua), certainly of recent anthropogenic origin. Such species are therefore accepted as aliens, as recommended by Pagad et al. (2018).