5,410 research outputs found
Annea Mackinder & Wieringa 2013, gen. nov.
Annea Mackinder & Wieringa gen. nov. Shrubs or trees to 25 m. Leaves paripinnate, 1–2-jugate, when 2-jugate the distal pair conspicuously larger than the proximal pair, leaf rachis winged or not. Bud scales absent. Leaflets sessile, ovate to rhombate, falcate, glabrous above, glabrous or almost so below, mid-vein sub-central. Crater-like glands usually present on the abaxial leaflet surface. Inflorescence a lax terminal or axillary raceme. Bracts caducous or persisting just until anthesis, bracteoles paired, showy, persistent, borne in the upper third or at the apex of the pedicel. Sepals 4, reflexed after anthesis, slightly longer than the hypanthium. Petals 5, adaxial and lateral petals conspicuous, similar in size, abaxials rudimentary. Stamens 10, filaments free, anthers dorsifixed, dehiscing by slits. Ovary stipitate, stipe fused to adaxial hypanthium wall, indumentum sparse on the faces, denser on the margins, stigma terminal, small, peltate. Pod compressed, glabrous, obliquely triangular, obovate to semi-circular, broadest at the middle or towards the apex the upper margin curving to almost straight, not winged, the lower margin deeply rounded, sometimes curving sharply upwards to the apex, valves revolute after dehiscence (explosive dehiscence). Seeds 1–2, ovoid or ellipsoid, compressed. Seedlings: germination epigeal, first and subsequent seedling leaves alternate. Type: Cynometra laxiflora. For type specimen details see below. Distribution:— Tropical Africa. Guineo-Congolian distribution: 2 species. Liberia, Côte D’Ivoire, Ghana, Togo, Benin, Nigeria, Cameroon, Equatorial Guinea, Congo, Democratic Republic of Congo, Angola (including Cabinda) (Fig. 1). The combined geographic distribution of the two species is wide but their ranges do not overlap. Etymology:— Named for Professor Anne Bruneau of University of Montreal, Canada. She has been the leading authority in Caesalpinioideae phylogenetics for over a decade. Her work and that of her students has led to the establishment of a phylogenetic framework for the subfamily creating a firm foundation on which studies of smaller taxonomic breadth such as this can rest. Bruneau made several collections of Annea afzelii during fieldwork in Cameroon in 1996, one of which was used in the preparation of the illustration of A. afzelii presented in this paper.Published as part of Mackinder, Barbara A. & Wieringa, Jan J., 2013, Annea gen. nov. (Detarieae, Caesalpinioideae, Leguminosae): a home for two species long misplaced in Hymenostegia sensu lato, pp. 1-14 in Phytotaxa 142 (1) on pages 3-4, DOI: 10.11646/phytotaxa.142.1.1, http://zenodo.org/record/509986
FIGURE 2 in Rinorea calcicola (Violaceae), an endangered new species from south-eastern Gabon
FIGURE 2. Distribution of Rinorea calcicola (red dots) including outlines of the National Parks in Gabon.Published as part of Velzen, Robin Van & Wieringa, Jan J., 2014, Rinorea calcicola (Violaceae), an endangered new species from south-eastern Gabon, pp. 267-275 in Phytotaxa 167 (3) on page 270, DOI: 10.11646/phytotaxa.167.3.5, http://zenodo.org/record/513883
Gabonius Wieringa & Mackinder & Van Proosdij 2013, gen. nov.
Gabonius Wieringa & Mackinder gen. nov. Type: Hymenostegia ngouniensis, for type specimen details see below. Shrub or tree, usually small but may attain 35 m tall. Stipules in pairs, free but touching at the base, caducous. Bud scales absent. Leaves paripinnate, leaflets in (2–)5–7 pairs, subsessile, narrowly elliptic to elliptic, ovate to sub-rhombate, adaxial surface glabrous, abaxial surface glabrous or with sparse indumentum, crater-like glands present, visible at × 10 or higher magnification. Inflorescence a terminal or axillary raceme, axes puberulous, bracts caducous, bracteoles persistent, opposite, petaloid, conspicuous, adaxial surfaces touching along margins prior to anthesis. Petals 5, adaxial and lateral petals large, yellow and white, similar in size, abaxial petals smaller, white. Stamens 10. Ovary stipitate, the stipe fused along most of its length to the adaxial sidewall of the hypanthium, densely hairy along the margins, stigma peltate. Pod compressed, glabrous, trapeziform, broadest at about one-third distance from the apex, dehiscent. Seeds 1–2, discoid. Etymology: —This new, so far monotypic genus is named after Gabon, a country where it is not only endemic to, but in which it also occurs over a large extent; the known distribution seems to fit that country very well, and a species distribution model of the species (see below) predicts it is more or less confined to this country as well. Although Gabon has a large number of endemics, c. 500 species are recorded as endemic and another 100 as near endemic (Sosef et al. 2006), only a few of these species have such a large distribution within the country. Gabonius has the male gender. Note: —The only slightly similar name that exists is Gabunia Stapf (1902: 136), but that name differs in several letters and is a synonym of Tabernaemontana Linné (1753: 210–211) (Apocynaceae) with no current use, so we do not foresee any possibilities for confusion between these two.Published as part of Wieringa, Jan J., Mackinder, Barbara A. & Van Proosdij, André S. J., 2013, Gabonius gen. nov. (Leguminosae, Caesalpinioideae, Detarieae), a distant cousin of Hymenostegia endemic to Gabon, pp. 15-24 in Phytotaxa 142 (1) on page 17, DOI: 10.11646/phytotaxa.142.1.2, http://zenodo.org/record/509987
FIGURE 1. Monanthotaxis paniculata. A. Flowering branch. B. Flower bud. C. Flower bud with 3 petals removed. D. Petal from outside. E. Petal from inside. F. Stamen from inside. G. Stamen lateral view. H. Stamen from outside. I. Stamen from top. J. Staminode. K. Ovary. L. Leaf uppserside. A–K from McPherson 16123 in A new species of Monanthotaxis from Gabon with a unique inflorescence type for Annonaceae
FIGURE 1. Monanthotaxis paniculata. A. Flowering branch. B. Flower bud. C. Flower bud with 3 petals removed. D. Petal from outside. E. Petal from inside. F. Stamen from inside. G. Stamen lateral view. H. Stamen from outside. I. Stamen from top. J. Staminode. K. Ovary. L. Leaf uppserside. A–K from McPherson 16123; L from Reitsma 2870. Illustrator: Esmée Winkel.Published as part of Hoekstra, Paul H., Chatrou, Lars W. & Wieringa, Jan J., 2014, A new species of Monanthotaxis from Gabon with a unique inflorescence type for Annonaceae, pp. 106-112 in Phytotaxa 186 (2) on page 107, DOI: 10.11646/phytotaxa.186.2.5, http://zenodo.org/record/514698
FIGURE 1. Rinorea calcicola. A. Flowering branch. B in Rinorea calcicola (Violaceae), an endangered new species from south-eastern Gabon
FIGURE 1. Rinorea calcicola. A. Flowering branch. B. Detail of leaf margin with teeth. C. Detail of leaf insertion with axillary bud and stipule. D. Detail of midrib area of the leaf blade from above. E. Detail of the midrib area of the leaf blade from below. F. Crosssection of leaf around the midrib G. Budscale/reduced leaf with 2 stipules at base of inflorescence. H. Bract at top of inflorescence. I. Flower. J. Sepal from outside. K. Petals from inside, most left is posterior petal, from there clockwise the other 4. L. Detail of apex of posterior petal, side view. M. Androecium from the adaxial side. N. Androecium from the abaxial side. O. Androecium from outside. P. Androecium from inside. Q. Ovary and style. R. Fruit, side view. S. Seed. A–Q based on Breteler & de Wilde 785 (WAG); R–S based on Wieringa et al. 5991 (WAG). Illustrator: Hans de Vries.Published as part of Velzen, Robin Van & Wieringa, Jan J., 2014, Rinorea calcicola (Violaceae), an endangered new species from south-eastern Gabon, pp. 267-275 in Phytotaxa 167 (3) on page 269, DOI: 10.11646/phytotaxa.167.3.5, http://zenodo.org/record/513883
Op weg naar een natuurinclusieve landbouw : Veld & Beek
Jan Wieringa heeft sinds 1999 een biologisch dynamisch gemengd bedrijf samen met inmiddels 5 medeondernemers op de heuvels van Doorwerth, Veld en Beek. Samen hebben ze ongeveer 350 ha en 5 verkooppunten van een zeer breed assortiment aan producten, dat ze leveren aan ongeveer 2300 vaste klanten
Gabonius ngouniensis Wieringa & Mackinder 2013, comb. nov.
Gabonius ngouniensis (Pellegr.) Wieringa & Mackinder comb. nov. (Fig. 1) Hymenostegia ngouniensis Pellegrin (1942: 247). Type:— GABON. Ngounié: between Dibwangui and Issala, Le Testu 5284 (lectotype P!, isolectotype: B!, BR, IFAN!, K!), lectotype selected by Léonard (1951: 441). Shrub, or more commonly a tree 1–20 (–35) m tall, dbh 25 cm (12 m tree)– 40 cm (20 m tree); bark yellowish grey, or greenish brown, peeling (J.J. de Wilde 9328) with lenticels. Slash yellow to ochre, rather fibrous, up to 12 mm thick. Sapwood cream-coloured. Twigs reddish brown to dark brown, sparsely to moderately golden-brown puberulous, hairs hooked (only visible at × 100 or greater magnification), lenticels pale. Stipules in pairs, free but touching at base (intrapetiolar), caducous, triangular to ovate, 1–4.5 × 0.5–1.5 mm, golden-brown to white tomentose, especially over the midvein, lateral areas less dense to glabrous, but margin pubescent again, apex acute. Bud scales absent. Leaves paripinnate, (2–)5–7-jugate, most commonly with 5 or 6 leaflet pairs spaced widely along the rachis, the distance between nodes exceeding the width of the leaflets borne at the nodes, lower pairs smaller than upper pairs, distal or penultimate pair the largest; petiole 0.6–2.1 cm long, rachis 1.7–12.8 cm long, striate, moderately golden-brown puberulous, hairs hooked (only visible at × 100 or greater magnification), leaflets subsessile, narrowly elliptic to elliptic, ovate to sub-rhombate, falcate, upper leaflet pair 3.1–12.2 × 1.4–5.6 cm, adaxial surface glabrous, abaxial surface mostly glabrous or sparsely hairy, patch of hairs sometimes present at the base, margins often ciliate towards the base, mid-vein sub-central, the proximal half of the leaflet slightly larger, distal margin sometimes angular, proximal margin usually rounded, apex acuminate, base asymmetric, proximal half with 0–4 glands, distal half with 4–17 glands, the lowest numbers in the basal leaflets. Inflorescence a lax 7–18-flowered terminal or axillary raceme, sometimes branching once near base or two inflorescence axes arising at the same point, axis 7.5–15 cm long, including peduncle 1.5–5 cm long, moderately golden brown puberulous, hairs hooked (only visible at × 100 or greater magnification), bracts caducous, not seen in herbarium, pale green when young (Wieringa 2413); pedicel 15–27 mm long (at anthesis), moderately puberulous, hairs hooked (only visible at × 100 or greater magnification); bracteoles opposite, persistent, borne at the apex of the pedicel, directly below the hypanthium, petaloid, broadly ovate, 8–20 × 7–13 mm, when mature white or pinkish, deep red or purple spot at base, sometimes red-veined and with red or pale purplish margins, puberulous on both surfaces, more densely in the central area of the abaxial surface, margins ciliate; hypanthium 6–9 mm long, inside glabrous, outside glabrous or with some sparse hairs. Sepals pink, reddish brown, greenish purple outside, brownish green or purple brown inside, reflexed after anthesis, slightly longer than the hypanthium, puberulous towards the base on the inside, otherwise glabrous. Petals 5, glabrous, adaxial and lateral ones similar in size, 10–13 × 5–6 mm, yellow with white lower margins, a small purple basal-central spot and a pale claw when first in flower, turning red with age, claw of lateral petals very narrow, abaxial petals smaller, c. 4 × 1 mm, white. Stamens 10, filaments white or pink, free, anthers deep cream, pale pinkish or purplish brown, connective purple-grey (Wieringa 4493). Ovary 2–3 ovulate, stipitate, the stipe fused along most of its length to the adaxial sidewall of the hypanthium, green, orange-red or brownish with dark red sutures, hairs c. 0.75 mm long, white, sparse on the faces but dense along the margins, the marginal hairs persisting into young fruit and extending along the lower half of the style, stigma peltate, pistil white or greenish-white. Pod compressed, glabrous, dull greyish green or greenish blue outside, light brown to medium brown inside, 23–28 × 6.5–8.8 cm, trapeziform, broadest (“height”) about one-third distance from the apex, lower margin rounded, upper suture not broadened into wings, beak c. 5 mm long on immature pods, remnant of base only seen on mature pods, valves revolute after dehiscence. Seeds 1–2, discoid, c. 3 cm diameter (Wieringa 4493). Seedlings: (based on J.J.F.E. de Wilde 9329), first leaf pair opposite, possibly reduced (see notes), subsequent leaves are alternate, leaflets sessile, glabrous, in 2–4 pairs, largest leaflets at apex of the leaf 60–72 × 18–25 mm, very similar in appearance to adult foliage. Habitat and Ecology:—Primary and secondary evergreen forest: elevation sea level– 510 m. Populations seem to flower synchronously (van der Burgt 1), flowering recorded from November to July but most commonly in April. Distribution:—Endemic to Gabon, occurring in the western part of the country from the border with Equatorial Guinea in the north to that with Congo (Brazzaville) in the south (fig. 2). Since we have chosen to name this genus after Gabon, we decided to test the likelihood that the taxon distribution is indeed limited to Gabon. To assess this we generated a Species Distribution Model (SDM). For generating SDM’s based on presence-only data as in this case, MaxEnt has been documented to outperform other methods (Elith et al. 2006). As the foreseen distribution is limited to Gabon and possibly to neighbouring countries, we used a 30 arc-sec resolution and applied the analysis to a study area ranging from 8º N to 8º S and from 6 to 24º E, thus roughly encompassing the countries of Gabon, Equatorial Guinea, Cameroon, Democratic Republic of Congo, and Sao Tomé & Principe. The collecting localities of all herbarium vouchers examined in this study were used as input species data. Environmental layers used for model building and projection include 19 BIOCLIM variables (Hijmans et al. 2005). In addition, the range as well as standard deviation of altitude based on SRTM DEM 90 × 90 m data, obtained through (, accessed 07-10-2011) within each grid cell was calculated and added as variables to act as a proxy for ruggedness of the landscape. Finally, soil parameters of the dominant soil type within each grid cell were extracted from the Harmonised World Soil Database ( accessed 16-08-2012). Environmental parameters were checked for multi-collinearity separately for climatic and altitude data as well as for soil data. To avoid overfitting and errors due to multi-collinearity, only uncorrelated parameters were used for model building (Pearson r <0.65 or Spearman Rho <0.65). This resulted in the selection of the following parameters: temperature annual range (BIO7), mean temperature of coldest quarter (BIO11), annual precipitation (BIO12), precipitation seasonality (BIO15), precipitation of warmest quarter (BIO18), precipitation of coldest quarter (BIO19), altitude range (DEM-range), available water capacity range (AWC_CLASS, categorical variable), topsoil bulk density (T_BULK_DENSITY), topsoil calcium carbonate (T_CACO3), topsoil salinity (T_ECE), topsoil sodicity (T_ESP), topsoil gravel content (T_GRAVEL), topsoil organic carbon (T_OC), topsoil pH H2O (T_ PH _H2O), topsoil sand fraction (T_SAND), topsoil base saturation (T_BS) and topsoil cation exchange capacity of the clay fraction (T_CEC_CLAY, categorical variable). Models were built using MaxEnt V.3.3.3.k (Phillips et al. 2004) applying the default features. In addition a presence / absence distribution map was generated applying a 10 percentile trainings threshold, meaning that 10% of the training locations are allowed to fall outside the predicted distribution, which is assumed to correct for errors in identification and estimation of locations. The final model was generated using 41 presence records; the result is shown in fig. 3. The Area Under the Curve (AUC) of our model has a value of 0.990, which lies well above the critical threshold of 0.7. As the use of AUC has been highly criticised (Peterson et al. 2008), we also tested the model against a null model (Raes & Ter Steege 2007) resulting in a rank number of 100 (out of 100) clearly indicating that the model performs significantly better than random. Based on the predicted potential distribution, Gabonius is nearly endemic for the country of Gabon. The predicted presence on Sao Tomé, as displayed in fig. 3, is not realistic as Sao Tomé is a non-continental island located approx. 250 km off the coastline of Gabon which is impossible to reach for a species with explosive seed dispersal like Gabonius ngouniensis. Moreover, this island is of volcanic origin, with phosphorus-rich soils, which in general are not favourable for Detarieae as discussed above. The only place where Gabonius might occur outside of Gabon is just over the border in Equatorial Guinea; so far the species has not been found in that area. Conservation:— Gabonius ngouniensis is widespread in Gabon with an A00 of 38137 km 2 (cell size 46 km) and an E00 of 72300 km 2 and occurs within the borders of several National Parks. It is assessed here as Least Concern (LC) according to the criteria of IUCN (2001). Notes:—Small scars observed on the seedling axis suggest the abscission of a reduced first pair of opposite leaves. At the point of abscission, the epicotyl continues without any signs of transformation into a first stem, suggesting growth is not paused when the reduced first pair of leaves appears. As such this represents a transition between two commonly observed seedling morphologies in Detarieae (Léonard 1957). They are (i) seedlings that possess a clear epicotyl and an opposite first leaf pair indicating a pause in growth while this first pair fully develops, for example Talbotiella korupensis Mackinder & Wieringa (Mackinder et al. 2011: 411) and (ii) seedlings that immediately start producing a shoot with alternative leaves, for example Annea afzelii. This apparent presence of a reduced first leaf pair in Gabonius seedlings represents a (so far) unique morphology in Detarieae. Functionally we consider the seedlings to belong to type (ii) since growth continues beyond the first reduced leaves. We think it unlikely the reduced leaves are functional given they do not persist (see also Mackinder et al. 2013c). Bark with Green bean-odour (Dibata 132). Freshly dried material has a “nut-like” smell (van der Burgt 1). Several collectors note the flowers are fragrant. The epithet was written as “ngouniensis” by Pellegrin in 1942, but in a later publication that is much more widely available (Pellegrin 1949: 90) he spelled it as “ngounyensis”. Since Aubréville (1968a) in his flora treatment also used the later spelling, this spelling currently prevails in publications and databases. Since the epithet refers to a geographical name, its spelling should follow that of the original protologue and is not to be corrected. In the Flore du Gabon treatment, Aubréville (1968a: 102) lists Le Testu 5890 (P) as the holotype. This is incorrect, since the protologue mentions two collections (Le Testu 5284 & Le Testu 5890) but does not indicate a holotype. Moreover, this cannot be seen as a lectotypification since a lectotype had already been selected by Léonard (1951: 441), who selected 5284.Published as part of Wieringa, Jan J., Mackinder, Barbara A. & Van Proosdij, André S. J., 2013, Gabonius gen. nov. (Leguminosae, Caesalpinioideae, Detarieae), a distant cousin of Hymenostegia endemic to Gabon, pp. 15-24 in Phytotaxa 142 (1) on pages 17-21, DOI: 10.11646/phytotaxa.142.1.2, http://zenodo.org/record/509987
FIG. 7 in Description of four new species of Monodora and Isolona (Annonaceae) from Tanzania and an overview of Tanzanian Annonaceae diversity
FIG. 7. — SEM of pollen grains and tectum structure: A, B, Monodora carolinae Couvreur; C, D, M. globiflora Couvreur; E, F, M. hastipetala Couvreur; G, H, Isolona hexaloba Engl. & Diels from Ivory Coast; I, J, Isolona linearis Couvreur. A, B, Phillipson 4940 (C); C, D, Luke 3136 (MO); E, F, Phillipson 4958 (MO); G, H, de Wilde et al. 839 (WALKB, WAG); I, J, Frimodt-Møller et al. TZ59 (C). Scale bars: A, C, E, G, I, 10 µm; B, D, F, H, J, 1 µm.Published as part of Couvreur, Thomas L. P., Gereau, Roy E., Wieringa, Jan J. & Richardson, James E., 2006, Description of four new species of Monodora and Isolona (Annonaceae) from Tanzania and an overview of Tanzanian Annonaceae diversity, pp. 243-266 in Adansonia (3) 28 (2) on page 261, DOI: 10.5281/zenodo.518694
Replication Data for: Premus et al. (2022) Bridging time scales of faulting: from coseismic to postseismic slip of the Mw 6.0 2014 South Napa, California earthquake
Date: 24. 6. 2022
Author: Jan Premus, Department of Geophysics, Charles University, Prague, email: [email protected]
This dataset contains a database (samples.dat) of forward models obtained from the dynamic inversion of the Mw 6.0 2014 South Napa, California earthquake (See INFO.txt file for more information).
Dataset was used in a paper: Premus, J., F. Gallovic, and J.-P. Ampuero (2022). Bridging time scales of faulting: from coseismic to postseismic slip of the Mw 6.0 2014 South Napa, California earthquake. Sci. Adv. (In review)
New distribution and taxonomic information on Callitriche (Plantaginaceae) in the Mediterranean region
This article presents new records of water-starworts (Callitriche sp. pl.) from the Mediterranean basin, resulting from review of herbarium specimens and field work. Callitriche brutia var. naftolskyi is stated as a new combination and confirmed from Greece (Lesvos and Milos), Israel, Italy (Sardinia and Sicily), Libya, Morocco and Syria; C. lusitanica from Greece (Les-vos), Israel and Italy (Sardinia and Sicily); C. brutia var. brutia has been known from Greece for some time but is confirmed from Lesvos and Milos; C. obtusangula and C. truncata subsp. truncata are both confirmed from Sardinia and Sicily, while the latter is also confirmed from Syria. Callitriche lenisulca and C. stagnalis are confirmed from Sardinia but records of the latter from Lesvos appear to be erroneous; C. truncata subsp. occidentalis is known from Lesvos but records from Sardinia and Sicily appear to be erroneous. Records of C. regis-jubae from Sardinia are probably misidentifications for C. brutia var. naftolskyi. Records of C. brutia var. hamulata from the region are likely to be erroneous. A recent find of the alien C. terrestris in Spain is the first record for that country and the second record for Europe
- …
