To detect the horizontal pattern of phylogenetic structure shown by alpine plants, we measured phylogenetic structure using net related index(NRI) and net nearest taxon index(NTI), and analyzed the phylogenetic struct...To detect the horizontal pattern of phylogenetic structure shown by alpine plants, we measured phylogenetic structure using net related index(NRI) and net nearest taxon index(NTI), and analyzed the phylogenetic structure patterns of alpine plants along longitude, latitude and environmental gradients in the Hengduan Mountains Region(HDMR). Our results show that: 1) the phylogenetic structure tended to cluster with increasing latitude and longitude; 2) for NRI, latitude was closer related than longitude,while for NTI, longitude was closer related than latitude, though they both not significantly relate to NTI.The phylogenetic structure tended towards overdispersion in the southern HDMR, with good climate conditions of higher mean annual temperature and more mean annual precipitation. In contrast, with harsh climate conditions of lower mean annual temperature and less mean annual precipitation, the increasing environmental stress led to phylogenetic clustering in the northern HDMR. The results highlighted that in the alpine region of HDMR, environmental filters and geographical isolation had a great effect on the latitudinal and longitudinal alpine species distribution, respectively.展开更多
Toxicodendron is a genus in the Rhus complex of Anacardiaceae with a disjunct distribution between eastern Asia and North America, extending to southeastern Asia and the neotropics. Nuclear (internal transcribed spac...Toxicodendron is a genus in the Rhus complex of Anacardiaceae with a disjunct distribution between eastern Asia and North America, extending to southeastern Asia and the neotropics. Nuclear (internal transcribed spacer, external transcribed spacer, and NIA-i3) and chloroplast (ndhF and trnL-F) sequences were used to construct phylogenetic relationships of Toxicodendron. Phylogenetic analysis of these data strongly support Toxieodendron as a monophyletic group distinct from other genera of the Rhus complex, and the phylogeny does not fully corroborate classification at the sectional level. Two temperate disjunct lineages were detected, one from section Toxicodendron and the other between the eastern North American Toxicodendron vernix and the eastern Asian Toxicodendron vernieifluum. Their divergence times were estimated to be 13.46 (7.95-19.42) and 7.53 (2.76-12.86) mya, respectively. The disjunction between section Griffithii (taxa from warm temperate to tropical Asia) and Toxieodendron striatum (from the neotropics) was supported and their divergence time was estimated to be 20.84 (11.1 6-30.52) mya in the early Miocene. Our biogeographic results and the paleontological data support the Bering land bridge as the most likely route to explain the temperate disjunctions, yet the tropical disjunction in Toxicodendron seems to be best explained by the North Atlantic land bridge hypothesis.展开更多
The Hengduan Mountains region of south-west China is a noted biodiversity,hotspot, but the geographic origins and historical assembly of its rich endemic flora, including the sky-island species ofSolms-laubachia Musch...The Hengduan Mountains region of south-west China is a noted biodiversity,hotspot, but the geographic origins and historical assembly of its rich endemic flora, including the sky-island species ofSolms-laubachia Muschl. (Brassicaceae), have been little studied. Previous molecular studies on the phylogeny of Solms-laubachia showed it to be paraphyletic, leading to considerable expansion not only of its taxonomic limits, but also its geographic range, with the inclusion of taxa from outside the Hengduan region. However, these studies provided little resolution of interspecific relationships, preventing inferences about historical biogeography within the clade. In the present study, new sequence data from two nuclear genes (LEAFY and G3pdh) and two chloroplast intergenic spacers (petN-psbM and psbM-trnD) were combined with existing markers to increase phylogenetic signals. Phaeonychium villosum (Maxim.) Al-Shehbaz was found to be nested within Solms-laubachia s.l. In general, phylogenetic relationships appear to be a good predictor of geography, with the Hengduan Mountain endemics embedded in a paraphyletic grade of species from the western Himalayas and central Asia, but they also imply morphological homoplasy, lncongruence was detected between the nuclear and chloroplast gene trees, perhaps resulting from incomplete lineage sorting of ancestral polymorphisms. The crown age ofSolms-laubachia s.l. was estimated to be approximately 1.42-3.68 mya, using Bayesian relaxed molecular clock analysis. Historical biogeographic analysis using a parametric dispersalextinction-cladogenesis model inferred central Asia and the western Himalayas as most probable ancestral range of Solms-laubachia s.l., and estimated higher rates of eastward expansion than westward during the diversification of descendant lineages. In summary, our results suggest that Solms-laubachia s.l. originated during the Pliocene in central Asia, and subsequently migrated eastward into the Hengduan Mountains, colonizing sky-island, alpine scree-slope habitats that may have provided novel ecological opportunity and accelerated speciation, ultimately establishing this region as the present center of diversity of the genus.展开更多
Evergreen sclerophyllous oaks (the E.S. oaks, Quercus section Heterobalanus) are the dominant species of the local ecosystem in the eastern Himalaya and the Hengduan Mountains, southwest China. In this study, we doc...Evergreen sclerophyllous oaks (the E.S. oaks, Quercus section Heterobalanus) are the dominant species of the local ecosystem in the eastern Himalaya and the Hengduan Mountains, southwest China. In this study, we document the climatic envelope of the seven E.S. oak species and examine the relationships between climate and their distribution. This was done using a principal components analysis (PCA) and multiple regression analysis (MRA) of nine climatic indices. The main climatic envelope of the E.S. oaks were: mean temperature of the warmest month (MTW)= 12.0-19.5℃, warmth index (WI) = 33.2-88.9℃ month, annual biotemperature (BT)=-6.9- -0.3 ℃, coldness index (CI)=-30.4- -10.1 ℃ month, mean temperature of the coldest month (MTC)=-3.7-3.0℃ and annual precipitation (AP)=701-897 mm at the lower limits; and MTW=8.3-16.1℃, WI=15.7-59.1℃ month, BT=3.6-8.9℃, CI=-55.4-19.3℃ month, MTC=8.3-16.1 ℃ and AP=610-811 mm at the upper limits. The climatic range of the E.S. oaks is wide and includes two climatic zones, the cool-temperature zone and the subpolar zone. The PCA and MRA results suggest that the thermal climate plays a major role and precipitation plays a secondary role in controlling the large-scale distribution of the E.S. oaks, except Quercus monimotricha. In thermal regimes, BT and/or MTW are most important for both lower and upper limits of the E.S. oaks. Furthermore, our results indicate that the upper distribution limits of the E.S. oaks are less determined by low temperatures and their duration (CI) than by other factors.展开更多
Genera Lamiophlomis and Paraphlomis were originally separated from genus Phlomis s.1. on the basis of particular morphological characteristics. However, their relationship was highly contentious, as evidenced by the l...Genera Lamiophlomis and Paraphlomis were originally separated from genus Phlomis s.1. on the basis of particular morphological characteristics. However, their relationship was highly contentious, as evidenced by the literature. In the present paper, the systematic positions of Lamiophlomis, Paraphlomis, and their related genera were assessed based on nuclear internal transcribed spacer (ITS) and chloroplast rpl16 and trnL-F sequence data using maximum parsimony (MP) and Bayesian methods. and outgroup were sampled. Analyses of both separate In total, 24 species representing six genera of the ingroup and combined sequence data were conducted to resolve the systematic relationships of these genera. The results reveal that Lamiophlomis is nested within Phlomis sect. Phlomoides and its generic status is not supported. With the inclusion ofLamiophlomis rotata in sect. Phlomoides, sections Phlomis and Phlomoides of Phlomis were resolved as monophyletic. Paraphlomis was supported as an independent genus. However, the resolution of its monophyly conflicted between MP and Bayesian analyses, suggesting the need for expended sampling and further evidence.展开更多
Buddleja macrostachya (Buddlejaceae) is a widespread shrub native to the Sino-Himalayan mountains and beyond. It has been found to occur at two ploidy levels, hexaploid, 2n=6x=114 and dodecaploid, 2n= 12x=228. To de...Buddleja macrostachya (Buddlejaceae) is a widespread shrub native to the Sino-Himalayan mountains and beyond. It has been found to occur at two ploidy levels, hexaploid, 2n=6x=114 and dodecaploid, 2n= 12x=228. To determine if morphological characters might be used as indicators of ploidy levels, we measured floral and fruit length, relative and absolute leaf size, trichome density on both leaf surfaces, and stomatal density and length in different populations orB. macrostachya. In general, flower and fruit length, absolute leaf size, and stomatal length in,eased with an increase at ploidy level (P〈0.01), whereas adaxial cell and stomatal density decreased with an increase at ploidy level (P〈0.01). We found no conspicuous differences in relative leaf size (P〉0.05) in different populations. Other characters studied such as trichome type, cuticular membrane and ornamentation of stomata, cell and stomatal shape, and anticlinal wall pattern were quite constant in this species. Thus it appears that flower and fruit length, absolute leaf size, and stomatal frequency and length can be used to distinguish hexaptoid from dodecaploid cytotypes either in the field or in herbarium specimens.展开更多
The present paper reconstructs the biogeographic diversification for Nolana L.f. (Solanaceae), a genus of 89 endemic species largely restricted to fog-dependent desert lomas formations of coastal Peru and Chile. Pre...The present paper reconstructs the biogeographic diversification for Nolana L.f. (Solanaceae), a genus of 89 endemic species largely restricted to fog-dependent desert lomas formations of coastal Peru and Chile. Previous efforts have reconstructed a phylogenetic estimate for Nolana using a combination of molecular markers. Herein, we expand on those results to examine hypotheses of biogeographic origins and diversification patterns. Nolana occupies habitats within a continuous coastal desert and forms a terrestrial archipelago of discrete "islands" unique in size, topography, and species composition. Each locality contains at least one Nolana species and many contain multiple species in sympatry. The genus has a Chilean origin, with the basal clades confined to Chile with wide geographic and ecological distributions. Peru contains two strongly supported clades, suggesting two introductions with subsequent radiation. A Chilean clade of shrubby, small-flowered species appears to have had its origins from the same ancestors of the second line that radiated in Peru and northern Chile. Nolana galapagensis is endemic to the Islas Galapagos, with origins traced to Peruvian taxa with a divergence time of 0.35 mya. Rates of diversification over the past 4.02 mya in Nolana, in one of the driest habitats on Earth, suggest rapid adaptive radiation in several clades. Success in Nolana may be attributed to characters that confer a competitive advantage in unpredictable and water-dependent environments, such as succulent leaf anatomy and ecophysiology, and the reproductive mericarp unique to Nolana. The processes affecting or shaping the biota of western South America are discussed.展开更多
Fresh plant material is usually used for genome size estimation by flow cytometry(FCM). Lack of fresh material is cited as one of the main reasons for the dearth of studies on plants from remote locations.Genome sizes...Fresh plant material is usually used for genome size estimation by flow cytometry(FCM). Lack of fresh material is cited as one of the main reasons for the dearth of studies on plants from remote locations.Genome sizes in fresh versus desiccated tissue of 16 Ophiopogoneae species and five model plant species were estimated. Our results indicated that desiccated tissue was suitable for genome size estimation; this method enables broader geographic sampling of plants when fresh tissue collection is not feasible. To be useful, after dessication the Ophiopogoneae sample should be green without brown or yellow markings;it should be stored in deep freezer at à80C, and the storage time should be no more than 6 months.展开更多
The present work represents the first comprehensive taxonomic revision of Acacia sens.lat.(Leguminosae:Mimosoideae)in China,focusing on the indigenous species.Critical reassessments of specimens and re-defin让ion of p...The present work represents the first comprehensive taxonomic revision of Acacia sens.lat.(Leguminosae:Mimosoideae)in China,focusing on the indigenous species.Critical reassessments of specimens and re-defin让ion of previously recorded species have resulted in recognising 21 indigenous species under Senegalia,a segregate of the former Acacia sens.tat.Detailed botanical profiles are provided for these species,together w让h a diagnostic line drawing and distribution map;photographs of living plants are provided for more than half the species.Terser treatments are also provided for the 15 species from four genera that are regarded as major introductions of Acacia sens.lat.to the country:Acacia Mill.(12 spp.),Acaciella Britton&Rose(1 sp.),Senegalia Raf.(1 sp.)and Vachellia Wight&Arn.(1 sp.).An identification key to all Acacia sens.lat.species in China is provided.The indigenous species of Senegalia in China belong to sect.Monacanthea(Vassal)Maslin,comb,nov.,and the introduced ones to sect.Senegalia.As a consequence of this study,the number of Senegalia species now recognised for China has almost doubled.Six new species are described:Senegalia clandestina Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia guangdongensis Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia obliqua Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia orientalis Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia prominens Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia stipitata Maslin,B.C.Ho,H.Sun&LBai,sp.nov.Four new combinations are established:Senegalia garrettii(I.C.Nielsen)Maslin,B.C.Ho,H.Sun&LBai,comb.&stat,nov.;Senegalia kerrii(I.C.Nielsen)Maslin,B.C.Ho,H.Sun&LBai,comb.&stat,nov.;Senegalia kunmingensis(C.Chen&H.Sun)Maslin,B.C.Ho,H.Sun&LBai,comb.&stat,nov.;Senegalia macrocephala(Lace)Maslin,B.C.Ho,H.Sun&LBai,comb.nov.Senegalia andamanica(I.C.Nielsen)Maslin,Seigler&Ebinger and S.macrocephala are new records for China.A lectotype is designated for Acacia teniana Harms and 2nd step lectotypifications effected for Acacia delavayi Franch.,Acacia insuavis Lace,Acacia pruinescens Kurz and Acacia yunnanensis Franch.Former holotype citations are corrected to lectotype for Acacia hainanensis Hayata,Acacia macrocephala Lace,Acacia oxyphylla Graham ex Benth.and Acacia philippinarum Benth.A neotype is designated for Acacia arrophula D.Don.China is a principal area of species-richness for Senegalia in Asia.Senegalia displays a high degree of endemism within China and almost half the species are endemic or near-endemic,w让h Yunnan the most species-rich and species-diverse Province.展开更多
基金supported by Major Program of National Natural Science Foundation of China grant no. 31590823 to Hang Sunthe National Natural Science Foundation of China (NSFC) Grant No. 31560063Key Disciplines (Ecology) Project of Yunnan Education Department
文摘To detect the horizontal pattern of phylogenetic structure shown by alpine plants, we measured phylogenetic structure using net related index(NRI) and net nearest taxon index(NTI), and analyzed the phylogenetic structure patterns of alpine plants along longitude, latitude and environmental gradients in the Hengduan Mountains Region(HDMR). Our results show that: 1) the phylogenetic structure tended to cluster with increasing latitude and longitude; 2) for NRI, latitude was closer related than longitude,while for NTI, longitude was closer related than latitude, though they both not significantly relate to NTI.The phylogenetic structure tended towards overdispersion in the southern HDMR, with good climate conditions of higher mean annual temperature and more mean annual precipitation. In contrast, with harsh climate conditions of lower mean annual temperature and less mean annual precipitation, the increasing environmental stress led to phylogenetic clustering in the northern HDMR. The results highlighted that in the alpine region of HDMR, environmental filters and geographical isolation had a great effect on the latitudinal and longitudinal alpine species distribution, respectively.
基金supported bygrants from the National Basic Research Program of China (973 Program,grant no. 2007CB411601)the National Natural Science Foundation of China (grant nos.30625004 and 40771073 to H. Sun)+2 种基金the Yunnan Natural Science Foundation (grant no. 2008CC013)the John D. and Catherine T. MacArthur Foundation (to J.Wen)supported by the Laboratory of Analytical Biology of the National Museum of Natural History,Smithsonian Institution,Washington DC,USA
文摘Toxicodendron is a genus in the Rhus complex of Anacardiaceae with a disjunct distribution between eastern Asia and North America, extending to southeastern Asia and the neotropics. Nuclear (internal transcribed spacer, external transcribed spacer, and NIA-i3) and chloroplast (ndhF and trnL-F) sequences were used to construct phylogenetic relationships of Toxicodendron. Phylogenetic analysis of these data strongly support Toxieodendron as a monophyletic group distinct from other genera of the Rhus complex, and the phylogeny does not fully corroborate classification at the sectional level. Two temperate disjunct lineages were detected, one from section Toxicodendron and the other between the eastern North American Toxicodendron vernix and the eastern Asian Toxicodendron vernieifluum. Their divergence times were estimated to be 13.46 (7.95-19.42) and 7.53 (2.76-12.86) mya, respectively. The disjunction between section Griffithii (taxa from warm temperate to tropical Asia) and Toxieodendron striatum (from the neotropics) was supported and their divergence time was estimated to be 20.84 (11.1 6-30.52) mya in the early Miocene. Our biogeographic results and the paleontological data support the Bering land bridge as the most likely route to explain the temperate disjunctions, yet the tropical disjunction in Toxicodendron seems to be best explained by the North Atlantic land bridge hypothesis.
基金supported by the Chinese National Natural Science Foundation (grants no.30625004,40771073 to HS)the Yunnan Natural Science Foundation (2008CC013 to HS)+4 种基金the US National Science Foundation (grant no. DEB-0321846,to DEB)the John D. and Catherine T. MacArthur Foundation (grant to JW,RR,and GM)the Innovation Project of the Chinese Academy of Sciences (KSCX2-YW-Z-030)a Mercer Fellowship from the Arnold Arboretum (to JPY)supported by the National Geographic Society (grant no.7405-03)
文摘The Hengduan Mountains region of south-west China is a noted biodiversity,hotspot, but the geographic origins and historical assembly of its rich endemic flora, including the sky-island species ofSolms-laubachia Muschl. (Brassicaceae), have been little studied. Previous molecular studies on the phylogeny of Solms-laubachia showed it to be paraphyletic, leading to considerable expansion not only of its taxonomic limits, but also its geographic range, with the inclusion of taxa from outside the Hengduan region. However, these studies provided little resolution of interspecific relationships, preventing inferences about historical biogeography within the clade. In the present study, new sequence data from two nuclear genes (LEAFY and G3pdh) and two chloroplast intergenic spacers (petN-psbM and psbM-trnD) were combined with existing markers to increase phylogenetic signals. Phaeonychium villosum (Maxim.) Al-Shehbaz was found to be nested within Solms-laubachia s.l. In general, phylogenetic relationships appear to be a good predictor of geography, with the Hengduan Mountain endemics embedded in a paraphyletic grade of species from the western Himalayas and central Asia, but they also imply morphological homoplasy, lncongruence was detected between the nuclear and chloroplast gene trees, perhaps resulting from incomplete lineage sorting of ancestral polymorphisms. The crown age ofSolms-laubachia s.l. was estimated to be approximately 1.42-3.68 mya, using Bayesian relaxed molecular clock analysis. Historical biogeographic analysis using a parametric dispersalextinction-cladogenesis model inferred central Asia and the western Himalayas as most probable ancestral range of Solms-laubachia s.l., and estimated higher rates of eastward expansion than westward during the diversification of descendant lineages. In summary, our results suggest that Solms-laubachia s.l. originated during the Pliocene in central Asia, and subsequently migrated eastward into the Hengduan Mountains, colonizing sky-island, alpine scree-slope habitats that may have provided novel ecological opportunity and accelerated speciation, ultimately establishing this region as the present center of diversity of the genus.
基金supported by the State Key Basic Research and Development Plan of China (973) (2003CB415102)the National Natural Science Foundation of China (30170077, 30670159)
文摘Evergreen sclerophyllous oaks (the E.S. oaks, Quercus section Heterobalanus) are the dominant species of the local ecosystem in the eastern Himalaya and the Hengduan Mountains, southwest China. In this study, we document the climatic envelope of the seven E.S. oak species and examine the relationships between climate and their distribution. This was done using a principal components analysis (PCA) and multiple regression analysis (MRA) of nine climatic indices. The main climatic envelope of the E.S. oaks were: mean temperature of the warmest month (MTW)= 12.0-19.5℃, warmth index (WI) = 33.2-88.9℃ month, annual biotemperature (BT)=-6.9- -0.3 ℃, coldness index (CI)=-30.4- -10.1 ℃ month, mean temperature of the coldest month (MTC)=-3.7-3.0℃ and annual precipitation (AP)=701-897 mm at the lower limits; and MTW=8.3-16.1℃, WI=15.7-59.1℃ month, BT=3.6-8.9℃, CI=-55.4-19.3℃ month, MTC=8.3-16.1 ℃ and AP=610-811 mm at the upper limits. The climatic range of the E.S. oaks is wide and includes two climatic zones, the cool-temperature zone and the subpolar zone. The PCA and MRA results suggest that the thermal climate plays a major role and precipitation plays a secondary role in controlling the large-scale distribution of the E.S. oaks, except Quercus monimotricha. In thermal regimes, BT and/or MTW are most important for both lower and upper limits of the E.S. oaks. Furthermore, our results indicate that the upper distribution limits of the E.S. oaks are less determined by low temperatures and their duration (CI) than by other factors.
基金supported by the Natural Science Foundation of Yunnan Province,as well as by a grant from the Technology Foundation and the National Key Project for Basic Research(973no.2007CB411600).
文摘Genera Lamiophlomis and Paraphlomis were originally separated from genus Phlomis s.1. on the basis of particular morphological characteristics. However, their relationship was highly contentious, as evidenced by the literature. In the present paper, the systematic positions of Lamiophlomis, Paraphlomis, and their related genera were assessed based on nuclear internal transcribed spacer (ITS) and chloroplast rpl16 and trnL-F sequence data using maximum parsimony (MP) and Bayesian methods. and outgroup were sampled. Analyses of both separate In total, 24 species representing six genera of the ingroup and combined sequence data were conducted to resolve the systematic relationships of these genera. The results reveal that Lamiophlomis is nested within Phlomis sect. Phlomoides and its generic status is not supported. With the inclusion ofLamiophlomis rotata in sect. Phlomoides, sections Phlomis and Phlomoides of Phlomis were resolved as monophyletic. Paraphlomis was supported as an independent genus. However, the resolution of its monophyly conflicted between MP and Bayesian analyses, suggesting the need for expended sampling and further evidence.
基金supported by grants-in-aid from the National Natural Science Foundation of China (NSFC 30625004,40771073)the Yunnan Natural Science Foundation(2008CC013)
文摘Buddleja macrostachya (Buddlejaceae) is a widespread shrub native to the Sino-Himalayan mountains and beyond. It has been found to occur at two ploidy levels, hexaploid, 2n=6x=114 and dodecaploid, 2n= 12x=228. To determine if morphological characters might be used as indicators of ploidy levels, we measured floral and fruit length, relative and absolute leaf size, trichome density on both leaf surfaces, and stomatal density and length in different populations orB. macrostachya. In general, flower and fruit length, absolute leaf size, and stomatal length in,eased with an increase at ploidy level (P〈0.01), whereas adaxial cell and stomatal density decreased with an increase at ploidy level (P〈0.01). We found no conspicuous differences in relative leaf size (P〉0.05) in different populations. Other characters studied such as trichome type, cuticular membrane and ornamentation of stomata, cell and stomatal shape, and anticlinal wall pattern were quite constant in this species. Thus it appears that flower and fruit length, absolute leaf size, and stomatal frequency and length can be used to distinguish hexaptoid from dodecaploid cytotypes either in the field or in herbarium specimens.
基金supported,in part,by grants to MOD from the National Science Foundation (DEB 0415573,DEB 9801297,DEB 8513205)
文摘The present paper reconstructs the biogeographic diversification for Nolana L.f. (Solanaceae), a genus of 89 endemic species largely restricted to fog-dependent desert lomas formations of coastal Peru and Chile. Previous efforts have reconstructed a phylogenetic estimate for Nolana using a combination of molecular markers. Herein, we expand on those results to examine hypotheses of biogeographic origins and diversification patterns. Nolana occupies habitats within a continuous coastal desert and forms a terrestrial archipelago of discrete "islands" unique in size, topography, and species composition. Each locality contains at least one Nolana species and many contain multiple species in sympatry. The genus has a Chilean origin, with the basal clades confined to Chile with wide geographic and ecological distributions. Peru contains two strongly supported clades, suggesting two introductions with subsequent radiation. A Chilean clade of shrubby, small-flowered species appears to have had its origins from the same ancestors of the second line that radiated in Peru and northern Chile. Nolana galapagensis is endemic to the Islas Galapagos, with origins traced to Peruvian taxa with a divergence time of 0.35 mya. Rates of diversification over the past 4.02 mya in Nolana, in one of the driest habitats on Earth, suggest rapid adaptive radiation in several clades. Success in Nolana may be attributed to characters that confer a competitive advantage in unpredictable and water-dependent environments, such as succulent leaf anatomy and ecophysiology, and the reproductive mericarp unique to Nolana. The processes affecting or shaping the biota of western South America are discussed.
基金supported by grants from the General Project of Natural Science Research in Anhui Province (AQKJ2015B018)Major projects of the National Natural Science Foundation of China (31590823)
文摘Fresh plant material is usually used for genome size estimation by flow cytometry(FCM). Lack of fresh material is cited as one of the main reasons for the dearth of studies on plants from remote locations.Genome sizes in fresh versus desiccated tissue of 16 Ophiopogoneae species and five model plant species were estimated. Our results indicated that desiccated tissue was suitable for genome size estimation; this method enables broader geographic sampling of plants when fresh tissue collection is not feasible. To be useful, after dessication the Ophiopogoneae sample should be green without brown or yellow markings;it should be stored in deep freezer at à80C, and the storage time should be no more than 6 months.
文摘The present work represents the first comprehensive taxonomic revision of Acacia sens.lat.(Leguminosae:Mimosoideae)in China,focusing on the indigenous species.Critical reassessments of specimens and re-defin让ion of previously recorded species have resulted in recognising 21 indigenous species under Senegalia,a segregate of the former Acacia sens.tat.Detailed botanical profiles are provided for these species,together w让h a diagnostic line drawing and distribution map;photographs of living plants are provided for more than half the species.Terser treatments are also provided for the 15 species from four genera that are regarded as major introductions of Acacia sens.lat.to the country:Acacia Mill.(12 spp.),Acaciella Britton&Rose(1 sp.),Senegalia Raf.(1 sp.)and Vachellia Wight&Arn.(1 sp.).An identification key to all Acacia sens.lat.species in China is provided.The indigenous species of Senegalia in China belong to sect.Monacanthea(Vassal)Maslin,comb,nov.,and the introduced ones to sect.Senegalia.As a consequence of this study,the number of Senegalia species now recognised for China has almost doubled.Six new species are described:Senegalia clandestina Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia guangdongensis Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia obliqua Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia orientalis Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia prominens Maslin,B.C.Ho,H.Sun&LBai,sp.nov.;Senegalia stipitata Maslin,B.C.Ho,H.Sun&LBai,sp.nov.Four new combinations are established:Senegalia garrettii(I.C.Nielsen)Maslin,B.C.Ho,H.Sun&LBai,comb.&stat,nov.;Senegalia kerrii(I.C.Nielsen)Maslin,B.C.Ho,H.Sun&LBai,comb.&stat,nov.;Senegalia kunmingensis(C.Chen&H.Sun)Maslin,B.C.Ho,H.Sun&LBai,comb.&stat,nov.;Senegalia macrocephala(Lace)Maslin,B.C.Ho,H.Sun&LBai,comb.nov.Senegalia andamanica(I.C.Nielsen)Maslin,Seigler&Ebinger and S.macrocephala are new records for China.A lectotype is designated for Acacia teniana Harms and 2nd step lectotypifications effected for Acacia delavayi Franch.,Acacia insuavis Lace,Acacia pruinescens Kurz and Acacia yunnanensis Franch.Former holotype citations are corrected to lectotype for Acacia hainanensis Hayata,Acacia macrocephala Lace,Acacia oxyphylla Graham ex Benth.and Acacia philippinarum Benth.A neotype is designated for Acacia arrophula D.Don.China is a principal area of species-richness for Senegalia in Asia.Senegalia displays a high degree of endemism within China and almost half the species are endemic or near-endemic,w让h Yunnan the most species-rich and species-diverse Province.
