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Stelis breviloba (Orchidaceae, Pleurothallidinae), a new species from Mexico 短叶Stelis brevloba(兰科,Pleurothalidinae),墨西哥一新种
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-06-30 DOI: 10.17129/botsci.3307
R. Solano, G. Salazar
Background: Stelis subgen. Physosiphon is basically a Meso-American group, and its best-known species is Stelis emarginata, characterized by its reddish orange flowers and distribution along the Gulf of Mexico slope in Mexico and Guatemala. Morphologically similar specimens from the Sierra Madre del Sur, on the Pacific slope of Guerrero and Oaxaca could represent a different and undescribed taxon. Question: Are the Sierra Madre del Sur populations similar to Stelis emarginata a different species? Study site: Sierra Madre del Sur in Guerrero and Oaxaca, Mexico. Methods: The description of the new species was based on live and pressed specimens; a line drawing and photographs were made from fresh material; its known localities were georeferenced and displayed on a map of Mexico. A morphological comparison of the new taxon with similar species was done based on specialized literature. Results: Stelis breviloba is described and illustrated as a new species from southern Guerrero and Oaxaca. It differs from S. emarginata by its shorter plants, less floriferous racemes, smaller flowers, oblong petals, and its allopatric distribution, restricted to the Pacific slope of the Sierra Madre del Sur. A key for the identification of the Mesoamerican species of Stelis subgen. Physosiphon is provided. Conclusion: Stelis breviloba is an endemic of the Sierra Madre del Sur and probable vicariant species of S. emarginata. Most species of Stelis subgen. Physosiphon (six out of eight) are present in the Mexican flora.
背景:Stelis亚群。Physosiphon基本上是一个中美洲群体,其最著名的物种是Stelis emarginata,其特征是其红橙色的花朵,分布在墨西哥和危地马拉的墨西哥湾斜坡上。在格雷罗州和瓦哈卡州的太平洋斜坡上,来自南马德雷山的形态相似的标本可能代表一个不同的、未被描述的分类群。问题:塞拉马德雷德尔南部的种群类似于Stelis marginata是不同的物种吗?研究地点:墨西哥格雷罗州和瓦哈卡州的南马德雷山脉。方法:利用活标本和压标本对新种进行描述;线条画和照片都是用新鲜的材料制作的;它已知的地点被地理参考并显示在墨西哥地图上。在文献资料的基础上,对新分类单元与同类进行了形态比较。结果:在格雷罗州南部和瓦哈卡州发现了一新种——短叶蕨(Stelis breviloba)。它的不同之处是它的植株较短,总状花序较少,花较小,花瓣长圆形,其异域分布仅限于南马德雷山脉的太平洋斜坡。一种鉴定中美洲Stelis亚属物种的关键。提供物理虹吸。结论:短螺旋藻是南马德雷山脉特有的一种,可能是马德雷山螺旋藻的变种。柱石属亚属的大多数种。在墨西哥的植物区系中,有六种是水母。
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引用次数: 0
Environmental factors can influence spatial aggregation and acorn production in the endemic and endangered oak Quercus brandegeei in Mexico 环境因素会影响墨西哥特有和濒危橡树布兰德盖栎的空间聚集和橡子生产
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-06-07 DOI: 10.17129/botsci.3309
Carolyn Brinckwirth, C. Klimas, Camila Cortez, Janet Nuῆez, Daniel W. Pérez-Morales, A. Breceda, A. González‐Rodríguez, S. Álvarez-Clare
Background and study species: The endangered oak Quercus brandegeei Goldman, endemic to Baja California Sur, Mexico, is threatened because of its relictual distribution restricted to ephemeral riverbeds, declining populations, and a lack of seedling regeneration. Although there is evidence of viable acorn production, no seedlings or saplings have been found across the range of occurrence for this species. Hypothesis: We tested for spatial aggregation and factors determining acorn production, hypothesizing that Q. brandegeei trees would be less distant from one another in regions with higher precipitation and that tree attributes and climatic variables would co-determine acorn presence. Study site and dates: Baja California Sur, Mexico, 2016-2017 Methods: We conducted a Ripley’s K analysis to determine each population’s spatial pattern (random, uniform, clumped) across 12 populations and a total of 194 individuals. To find the impact of environmental factors on acorn production we conducted a series of generalized linear models on eight climatic variables. Results: Ripley’s K analysis revealed that Q. brandegeei is a highly clumped species, with the highest rate of aggregation occurring within 0-25 meters. Region but not climatic cues were found to be important determinants of presence of acorns. Conclusions: High aggregation in clumps and low evidence of acorn production in some populations suggests that there is a niche attrition for this species, which is confined to very specific microsites along ephemeral riverbeds. Suitable recruitment areas could be reduced even further under the hotter and drier climate predicted for the region.
背景和研究物种:墨西哥下加利福尼亚特有的濒临灭绝的栎树(Quercus brandegeei Goldman),由于其传统分布局限于短暂的河床,种群数量下降,缺乏幼苗再生,因此受到威胁。虽然有证据表明橡子生产可行,但在整个发生范围内没有发现该物种的幼苗或树苗。假设:我们测试了空间聚集和决定橡子产量的因素,假设在降水较多的地区,布氏栎树之间的距离较小,树木属性和气候变量将共同决定橡子的存在。方法:我们对12个种群和194个个体进行了Ripley’s K分析,以确定每个种群的空间格局(随机、均匀、聚集)。为了找出环境因子对橡子产量的影响,我们对8个气候变量进行了一系列广义线性模型。结果:Ripley’s K分析结果显示,布氏柽柳是一种高度聚集的物种,聚集率最高的区域为0 ~ 25 m。区域而不是气候线索被发现是橡子存在的重要决定因素。结论:在一些种群中,高聚集性和低橡子产量的证据表明,该物种存在生态位消耗,这种消耗仅限于沿短暂河床的非常特定的微点。在该地区预测的更炎热和更干燥的气候下,合适的招聘面积可能会进一步减少。
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引用次数: 0
Cultivo in vitro de Agave potatorum, especie amenazada endémica de México 墨西哥特有濒危物种龙舌兰马铃薯的离体培养
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-06-06 DOI: 10.17129/botsci.3279
Ana Gabriela Téllez Torres, José Ángel Jiménez Rodríguez, Octavio González Caballero, Wendy Rocio Juárez Pérez, Samuel Martínez Martínez, Víctor Manuel Chávez Ávila
Antecedentes: Agave potatorum es una especie endémica importante ecológica, cultural y económicamente. Poco se cultiva y sus poblaciones naturales están desapareciendo, por lo que una alternativa es la propagación por cultivo de tejidos vegetales. Preguntas: ¿Es posible regenerar nuevos individuos partiendo de estructuras somáticas? ¿Qué explante regenera más plántulas? ¿Qué combinación de reguladores del crecimiento vegetal estimula una mayor formación de brotes? Especie estudiada: Agave potatorum, semillas de Oaxaca, México. Lugar de estudio y fechas: Jardín Botánico, Instituto de Biología, UNAM, Ciudad de México, México. Desde 2020. Métodos: Semillas se desinfectaron y germinaron in vitro y ex vitro. Se cultivaron in vitro explantes de cotiledones, tallos y hojas en medio MS modificado, un mes con BAP (0-2 mg/L) combinado con 2,4-D (0-0.5 mg/L), posteriormente en MS sin reguladores del crecimiento vegetal. Las plantas obtenidas con tres o más raíces se sometieron a un proceso de aclimatización. Resultados: A dos meses de iniciados los cultivos las semillas germinaron in vitro (56.04 %) y ex vitro (31.87 %). Después de 10 meses del período de inducción, se obtuvieron 228 brotes y plántulas, 206 procedían de los tratamientos BAP 1.5-2 mg/L con 2,4-D 0.5 mg/L, con 8.1-12.5 brotes/explante de tallo y hoja. Más del 70 % de las plantas sobrevivieron en invernadero luego de dos meses. Conclusiones: Esta investigación puede contribuir a la conservación de la especie, enfrentar los efectos del cambio climático, la conservación de servicios ecosistémicos y potenciar la economía mediante un aprovechamiento sustentable de ésta y otras especies amenazadas.
背景:龙舌兰马铃薯是一种具有重要生态、文化和经济意义的特有种。很少种植,它们的自然种群正在消失,所以另一种选择是通过植物组织培养繁殖。问题:有可能从体细胞结构中再生新的个体吗?哪种外植体能再生更多的幼苗?哪种植物生长调节剂组合能刺激更多的芽形成?研究种:龙舌兰马铃薯,瓦哈卡种子,墨西哥。研究地点和日期:墨西哥墨西哥城UNAM生物研究所植物园。从2020年。方法:种子在离体和离体条件下消毒发芽。子叶、茎、叶外植体在改良MS培养基中,BAP (0-2 mg/L)联合2,4-D (0-0.5 mg/L)培养1个月,在不使用植物生长调节剂的MS培养基中培养。从三个或三个以上根获得的植物经过驯化过程。结果:种子萌发2个月后,离体萌发(56.04%)和离体萌发(31.87%)。诱导期10个月后,共获得228株芽和幼苗,其中BAP 1.5-2 mg/L、2.4 - d 0.5 mg/L处理206株,茎叶外植体8.1-12.5株。超过70%的植物在两个月后在温室中存活。结论:本研究有助于物种保护,应对气候变化的影响,保护生态系统服务,并通过可持续开发该物种和其他濒危物种来促进经济发展。
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引用次数: 0
Landscape heterogeneity drives spatial distribution of palm community in a Neotropical rainforest reserve affected by defaunation 景观异质性驱动退化影响下新热带雨林保护区棕榈群落的空间分布
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-06-05 DOI: 10.17129/botsci.3204
Katia V. Miranda-Gallegos, Armando Navarrete-Segueda, Jorge Cortés‐Flores, M. L. González-Arqueros, Estefanía E. Acosta-Pérez, G. Ibarra‐Manríquez
Background: Our study presents the first assessment of the relationships between environmental heterogeneity and the palm community at the landscape scale at the northern boundary of tropical rainforest distribution in America. Question: How does landscape-level heterogeneity (edaphic, topographic as well as the density, diversity, and tree biomass) shapes the palm community in a protected reserve affected by defaunation? Study site and date: The study was carried out in Los Tuxtlas Tropical Biology Station, Veracruz, Mexico (2020). Methods: We delineated landscape units (LUs) based on soil and geomorphology to characterize the biophysical mosaic. We built rank-abundance curves to compare the palm richness and their abundance among LUs. Permutational multivariate analysis of variance (PERMANOVA) and nonmetric multidimensional scaling (NMDS) were applied to detect shifts in the palm community across LUs. Results: Integrating abiotic and biotic components by delimiting LUs allowed us to evaluate the multifactorial effect of environmental heterogeneity on the palm community. The density and composition of the palms changed significantly among the LUs, influenced by soil coarse fragments, elevation, slope inclination, and annual precipitation. Tree richness and density had a significant effect on the palm community only when analyzed in combination with the soil-topography variables. Conclusions: The results reveal that there is high edaphic and topographic heterogeneity that influences palm species distribution at the landscape scale. The environmental heterogeneity approach allows capturing novel abiotic variation to explain the distribution patterns of palm species and their coexistence in highly diverse tropical communities.
背景:本研究首次在景观尺度上评价了美国热带雨林北界分布的环境异质性与棕榈群落之间的关系。问题:景观层面的异质性(地形、地形、密度、多样性和树木生物量)如何塑造受退化影响的保护区内的棕榈群落?研究地点和日期:该研究于2020年在墨西哥韦拉克鲁斯的Los Tuxtlas热带生物学站进行。方法:以土壤和地貌为基础,对景观单元进行划分,刻画生物物理马赛克。我们建立了等级-丰度曲线来比较棕榈丰富度及其在LUs中的丰度。采用置换多元方差分析(Permutational multivariate analysis of variance, PERMANOVA)和非度量多维尺度(nonmetric multidimensional scaling, NMDS)来检测不同LUs棕榈群落的变化。结果:通过划分LUs,整合非生物和生物成分,使我们能够评估环境异质性对棕榈群落的多因素影响。受土壤粗粒破碎块、高程、坡度和年降水量的影响,各样地棕榈树的密度和组成变化显著。树木丰富度和密度对棕榈群落有显著影响,只有在与土壤地形变量结合分析时才有显著影响。结论:在景观尺度上,具有高度的土壤和地形异质性,影响着棕榈物种的分布。环境异质性方法允许捕获新的非生物变异来解释棕榈物种的分布模式及其在高度多样化的热带群落中的共存。
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引用次数: 0
Fine-scale genetic structure of Magnolia iltisiana in forest regeneration sites with a history of selective logging 具有选择性采伐历史的森林更新地白玉兰精细尺度遗传结构
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-06-03 DOI: 10.17129/botsci.3254
Ara Miguel-Peñaloza, J. Pérez-Alquicira, Yessica Rico
Background: Selective logging is a frequent practice in the Tropical Montane Cloud Forest which can impact forest regeneration and the genetic makeup of successive generations of trees. The spatial clustering of genetically related individuals, fine-scale genetic structure (FSGS), can develop from the reduction of gene dispersal and the decrease in the number of reproductive individuals at the local scale due to selective logging. Questions: In regeneration sites with a history of selective logging, does FSGS differ from a site without such a history? Is FSGS stronger in seedlings and saplings relative to juveniles and adults? Is genetic diversity similar among life stages and sites? Studied species: Magnolia iltisiana an endemic tree. Study site and dates: Sierra de Manantlan Biosphere Reserve, Jalisco, Mexico. 2020. Methods: We evaluated genetic diversity, genetic structure, and FSGS across four life stages (seedlings, saplings, juveniles, and adults) by genotyping 211 individuals with seven nuclear microsatellite loci in two regeneration and one conserved site. Results: We found statistically significant FSGS in the two regeneration sites only for seedlings and saplings, while no evidence of FSGS was detected in the conserved site. No differences in genetic diversity estimates and structure were found among life stages. Conclusions: Our study does not suggest an effect of selective logging on genetic diversity on the contrasted conditions and an FSGS pattern only in the earlier stages of the regeneration sites in M. iltisiana.
背景:选择性采伐是热带山地云雾林中常见的采伐行为,它会影响森林的更新和树木后代的遗传组成。遗传相关个体的空间聚类,即精细尺度遗传结构(fine-scale genetic structure, FSGS),是由于选择性采伐减少了局部尺度上的基因扩散和生殖个体数量而形成的。问题:在有选择性采伐历史的再生场地,FSGS与没有选择性采伐历史的场地有何不同?FSGS在幼苗和树苗中的作用是否比幼苗和成虫更强?基因多样性在不同的生命阶段和地点是否相似?研究树种:白玉兰,一种特有树种。研究地点和日期:墨西哥哈利斯科州Sierra de Manantlan生物圈保护区。2020。方法:通过对211个个体在两个再生点和一个保守点的7个核微卫星位点进行基因分型,评估了四个生命阶段(幼苗、树苗、幼树和成虫)的遗传多样性、遗传结构和FSGS。结果:我们发现在两个更新点只有幼苗和树苗有统计学意义的FSGS,而在保守点没有发现FSGS的证据。遗传多样性估计和结构在生命阶段之间没有差异。结论:我们的研究并没有表明选择性采伐在对照条件下对遗传多样性有影响,而FSGS模式只在M. iltisiana再生位点的早期阶段。
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引用次数: 0
Ecological knowledge, use and management of maax ik (Capsicum annuum var. glabriusculum (Dunal) Heiser & Pickersgill) in a rural Mayan community 玛雅农村社区maax ik (Capsicum annuum var. glabriusculum (Dunal) Heiser & Pickersgill)的生态知识、利用和管理
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-06-03 DOI: 10.17129/botsci.3290
Virginia Solís-Montero, Miguel A. Munguía-Rosas, R. Bello-Bedoy
Background: Capsicum annuum var. glabriusculum is the ancestor of most of the economically important chiles in the world. It is widely distributed throughout Mexico, and currently all indigenous groups interact with this plant species. On the Yucatan Peninsula wild chile is known as maax ik by the Maya. Although this area has been recognized as a domestication and diversification center of chile, ethnobotanical research on this species is still limited.      Questions: What ecological knowledge do local people have about maax ik? Where and how is maax ik gathered and managed? What uses does maax ik currently have? Studied species: Capsicum annuum var. glabriusculum Study site and dates: San Bernardo, Yucatan. Summer-Autumn 2021. Methods: In-depth semi-structured interviews and participatory observation. The management practices were identified, and management intensity was estimated. Results: Informants knew that maax ik reproduces sexually and recognized the role of birds in its seed dispersal. Maax ikwas mainly gathered from homegardens where this species was tolerated and other non-selective incipient management practices such as protection and promotion were also carried out. Fruit was harvested without harming the plant and only a small portion of the available fruit was usually taken. The informants used maax ik essentially as food. The management intensity index was relatively high (5). Conclusions: Maax ik is a sustenance food resource that is sustainably used and non-selectively managed in homegardens by our informants in San Bernardo, Yucatan.
背景:年椒(Capsicum annuum var. glabriusculum)是世界上大多数重要经济辣椒的祖先。它广泛分布在整个墨西哥,目前所有的土著群体都与这种植物相互作用。在尤卡坦半岛,野生辣椒被玛雅人称为maax ik。虽然该地区已被公认为智利的驯化和多样化中心,但对该物种的民族植物学研究仍然有限。问题:当地人对max ik有哪些生态知识?在哪里以及如何收集和管理max ik ?max ik目前有什么用途?研究地点和日期:圣贝纳多,尤卡坦。Summer-Autumn 2021。方法:深度半结构化访谈和参与式观察。确定了管理实践,并估计了管理强度。结果:被调查者知道大鲵有性繁殖,并认识到鸟类在其种子传播中的作用。Maax ikk主要采自可种植该物种的家庭花园,同时还进行了其他非选择性的早期管理措施,如保护和促进。果实在不伤害植物的情况下收获,通常只收获一小部分果实。告密者基本上把牛奶当作食物。管理强度指数较高(5)。结论:Maax ik是一种可持续利用和非选择性管理的营养性食物资源,在圣贝纳多,尤卡坦。
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引用次数: 0
Phenotype differentiation of Capsicum annuum var. glabriusculum of three regions in Mexico and its relation to climate 墨西哥三个地区辣椒的表型分化及其与气候的关系
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-05-26 DOI: 10.17129/botsci.3289
C. E. Romero-Higareda, S. Hernández-Verdugo, Antonio Pacheco-Olvera, J. E. Retes-Manjarrez, T. Osuna-Enciso, Á. Valdez-Ortiz
Background: Populations of Capsicum annuum var. glabriusculum are found in a wide portion of the Mexican territory, and it is ancestor of many cultivated forms relevant for the Mexican diet. Questions: What are the proportions of phenotypic and genetic variation distributed among its sampled regions, populations and within populations. How does the climate correlates to the population’s phenotypic variation. Species: Capsicum annuum var. glabriusculum. Study sites and years: 24 populations form three regions were sampled: Northwest, states of Sonora and Sinaloa; South: Oaxaca and Southeast Tabasco and Yucatán, in Mexico. The experiment was performed between years 2016 to 2018. Methods: Fruits from single plants were collected in wild populations. Plants were grown in a greenhouse. Nested ANOVAS were performed to estimate phenotypic and genetic variance components for different spatial scales. Climate correlation was estimated through univariate and multivariate methods. Results: 49.8 % of phenotypic variation was detected within families, 11.1 % among families (within populations), 21.3 % among populations and 17.6 % among regions. The genetic basis of phenotypic variation was 50.1% on average, for this genetic variation 34.2 % was found among regions, 39.4% among populations and 26.3 % within populations. Climate factors generated different patterns of correlations for vegetative, foliar and reproductive traits. Conclusions: Northwest plants were shorth, with small leaves and large fruits, Southeast plants were tall, with large leaves and small fruits, South plants developed intermediate phenotypic traits. Climate explained a large proportion of phenotypic differentiation.
背景:墨西哥领土的大部分地区都有黄辣椒的种群,它是许多与墨西哥饮食相关的栽培形式的祖先。问题:表型和遗传变异在其采样区域、种群和种群内的分布比例是多少。气候如何与种群的表型变异相关。种:辣椒变种。研究地点和年份:对来自三个地区的24个种群进行了抽样:西北部、索诺拉州和锡那罗亚州;南部:瓦哈卡州、墨西哥的塔巴斯科东南部和尤卡坦州。该实验在2016年至2018年期间进行。方法:从野生种群中采集单株果实。植物生长在温室里。进行嵌套方差分析来估计不同空间尺度的表型和遗传方差分量。通过单变量和多变量方法估计了气候相关性。结果:49.8%的表型变异发生在家系内,11.1%的表型变异出现在家系间(群体内),21.3%的表型变化出现在群体间,17.6%的表型差异出现在区域间。表型变异的遗传基础平均为50.1%,区域间遗传变异34.2%,群体间遗传变异39.4%,群体内遗传变异26.3%。气候因素对营养、叶面和生殖性状产生了不同的相关性模式。结论:西北植株矮小,叶小果大,东南植株高大,叶大果小,南方植株具有中等表型特征。气候解释了表型分化的很大一部分。
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引用次数: 1
Are nurse plants useful for facilitating the reintroduction of mid- and late successional tree species in tropical montane cloud forests? 护理植物对促进热带山地云雾林中后期演替树种的重新引入有用吗?
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-05-25 DOI: 10.17129/botsci.3236
J. A. Flores-Cano, S. M. Gelviz-Gelvez, David Douterlungne, E. Badano
Background: In Mexico, where 50 % of the original Tropical montane cloud forest (TMCF) has been lost due to human activities, the restoration of these forests is essential. Questions and/or hypotheses: (1) L. styraciflua favors the survival and growth of Q. germana and M. schiedeana species (2) Are there competitive effects between nurses and beneficiary species? and (3) Is the magnitude of these positive/negative interspecific interactions affected by the canopy cover of nurses? Studied species: Liquidambar styraciflua L. (pioneer tree), Magnolia schiedeana Schltdl. (mid-successional tree) and Quercus germana Schltdl. & Cham. (late-successional tree). Study site and dates: A fallow in Xilitla, state of San Luis Potosí, Mexico, between 2016 and 2018. Methods: Seedling of mid- and late-successional species were transplanted 0.3 m and 2 m away from the stems of pioneer tree (protected and unprotected saplings, respectively). Performance of the species were compared after two years and the effects of canopy cover of pioneer trees. Results: Pioneer trees facilitated the establishment probabilities of the mid-and late-successional ones. Increasing canopy cover of pioneer trees enhanced the establishment probabilities of both beneficiary species. Conclusions: Joint transplanting of pioneer trees with mid- and late-successional tree seedlings in their close vicinity is a strategy to favor the recovery of the ecosystem.
背景:在墨西哥,由于人类活动,50%的原始热带山地云雾林(TMCF)已经消失,恢复这些森林至关重要。问题和/或假设:(1)L.styraciflua有利于Q.germana和M.schiediana物种的生存和生长(2)护士和受益物种之间是否存在竞争效应?以及(3)这些积极/消极的种间相互作用的程度是否受到护士树冠覆盖的影响?研究种:枫香(先锋树)、厚朴。(中演替树)和德国栎Cham。(晚序树)。研究地点和日期:2016年至2018年间,墨西哥圣路易斯波托西州西利特拉的一处休耕地。方法:将演替中后期种的幼苗分别移植到离先锋树(保护和未保护树苗)茎0.3米和2米处。比较了两年后该物种的表现以及先锋树冠层覆盖的影响。结果:先锋树促进了中后期演替先锋树的建立概率。增加先锋树的树冠覆盖增加了两个受益物种的建立概率。结论:先锋树与中后期演替的树苗在其附近联合移植是一种有利于生态系统恢复的策略。
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引用次数: 1
High vascular plant species richness in the Usumacinta River Basin: a comprehensive floristic checklist for a natural region in the Mesoamerican biodiversity hotspot Usumacinta河流域维管植物物种丰富度高:中美洲生物多样性热点自然区域的综合植物区系清单
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-05-19 DOI: 10.17129/botsci.3253
D. A. Jiménez-López, J. A. Gallardo-Cruz, Mario Esteban Véliz, Rubén Martínez-Camilo, Claudio Méndez, J. Solórzano, Luis Velázquez-Méndez, J. Carabias, Gabriela García-Hidalgo, Candelario Peralta-Carreta, M. Sánchez-González, O. Castillo-Acosta, N. M. Luna-Kamyshev, J. Villaseñor, J. Meave
Background: Mesoamerica is one of the most important biodiversity hotspots on the planet. Despite significant efforts made over two centuries to contribute to the floristic knowledge of this region, our understanding of its flora is still scattered and uneven. Questions: What is the magnitude of the vascular plant species richness in the Usumacinta River Basin? Study site and dates: Usumacinta River Basin (Guatemala and Mexico), 1838-2018. Methods: We compiled the checklist by systematizing the floristic information acquired from various sources derived from numerous floristic and ecological studies. Results: We recorded 6,977 species, 1,892 genera and 274 families. The largest numbers of species (5,746) and records (58,859) correspond to the Mexican portion of the Usumacinta River Basin, compared to its Guatemalan counterpart (4,445 species and 19,952 records). The most species-rich families were Orchidaceae (598 species), Fabaceae (512), and Asteraceae (476). The prevalence of these and all other families with significant contributions to the flora varied among three elevation-defined sectors into which the Usumacinta River Basin was subdivided (lower, middle, and upper basin). Conclusions: The Usumacinta River Basin is a strategic region for plant biodiversity conservation as it hosts almost one third of all vascular plant species known for Mesoamerica and ca. 6 % of the entire flora in the Americas. Further botanical exploration should focus on those areas of the basin for which little or no information is available in order to gain a better appreciation of its flora.
背景:中美洲是地球上最重要的生物多样性热点地区之一。尽管在过去的两个世纪里,人们为了解这一地区的植物区系做出了巨大的努力,但我们对该地区植物区系的了解仍然是分散和不平衡的。问题:乌苏马辛塔河流域维管植物物种丰富度的大小是多少?研究地点和日期:Usumacinta河流域(危地马拉和墨西哥),1838-2018。方法:通过对大量植物区系和生态学研究中获得的各种来源的植物区系信息进行整理,编制清单。结果:共记录到植物6977种,隶属于274科1892属。乌苏马辛塔河流域的墨西哥部分有最多的物种(5,746种)和记录(58,859种),而危地马拉部分有4,445种和19,952条记录。植物种类最多的科是兰科(598种)、豆科(512种)和菊科(476种)。这些科和其他所有对植物区系有重要贡献的科的分布在乌苏马辛塔河流域被细分为三个海拔确定的区系(下游、中游和上游)之间存在差异。结论:乌苏马辛塔河流域是植物生物多样性保护的战略区域,因为它拥有中美洲已知的维管植物物种的近三分之一和美洲全部植物区系的约6%。进一步的植物探索应集中在盆地中资料很少或没有资料的地区,以便更好地了解其植物区系。
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引用次数: 2
Centrosema flavescens (Fabaceae, Papilionoideae), a new species from the Yucatan Peninsula, Mexico 黄中心丝菌(Fabeae,Papilioideae),墨西哥尤卡坦半岛的一个新种
IF 1.4 4区 生物学 Q3 PLANT SCIENCES Pub Date : 2023-05-19 DOI: 10.17129/botsci.3300
Germán Carnevali Fernández-Concha, D. Angulo, J. T. Tapia Muñoz, Ivon M. Ramírez Morillo, Rodrigo Duno de Stefano
Background: Centrosema (Fabaceae) includes 35-44 species in the New World, 10 in Mexico, and 9 in the Yucatan Peninsula. Most species have trifoliolate leaves and bicolored flowers. Unifoliolate leaves are an infrequent character that is found in a few species, e.g., C. sagittatum (Humb. & Bonpl. ex Willd.) Brandegee, but monochromatic flowers, e.g, lacking nectar guides, is even a more unusual character state. Several populations of a Centrosema from the Yucatan Peninsula share both character states, a combination that sets them apart from other members of the genus. Question: Is the Centrosema with unifoliolate leaves, alate petioles, and monochromatic flowers of the Yucatan Peninsula, a species distinct from the phenetically similar C. sagittatum? Studies species: Centrosema (Fabaceae, Papilionoideae). Study site and dates: Yucatan Peninsula, Mexico, 2021-2023. Methods: Botanical specimens were collected and determined taxonomically through the use of relevant literature, keys, and the consulting of botanical collections. The conservation status of the new species was assessed using the IUCN methodology. Results: The specimens collected do represent an undescribed species that differs from Centrosema sagittatum by its smaller, cream-yellow, monochromatic flowers. The species is assessed as Endangered (EN). Conclusions: A new species, Centrosema flavescens from the Yucatan Peninsula is proposed. Eleven species of Centrosema are now recognized in Mexico, nine in the Yucatan Peninsula. C. sagittatum does not occur in the Yucatan peninsula.
背景:中心虫(Fabaceae)在新大陆有35-44种,在墨西哥有10种,在尤卡坦半岛有9种。大多数物种都有三小叶和双色花。单小叶是一种罕见的特征,在少数物种中也有发现,例如C.sagittum(Humb.&Bonpl.ex Willd.)Brandegee,但单色花,例如缺乏花蜜引导,甚至是一种更不寻常的特征状态。尤卡坦半岛的几个Centrosema种群具有这两种特征状态,这一组合使它们与该属的其他成员不同。问题:尤卡坦半岛的中心体有单小叶、有翼叶柄和单色花,是一种与表型相似的箭形花不同的物种吗?研究种:中心花属(花科,蝶形花科)。研究地点和日期:墨西哥尤卡坦半岛,2021-2023年。方法:通过查阅相关文献、检索资料和查阅植物学文献,对植物标本进行分类测定。利用国际自然保护联盟的方法对新物种的保护状况进行了评估。结果:收集到的标本确实代表了一个未被描述的物种,它与箭状中心虫的不同之处在于其较小的乳黄色单色花朵。该物种被评估为濒危物种(EN)。结论:本文报道了一个新种,产于尤卡坦半岛。墨西哥目前已确认有11种Centrosema,尤卡坦半岛有9种。射手座C.在尤卡坦半岛没有出现。
{"title":"Centrosema flavescens (Fabaceae, Papilionoideae), a new species from the Yucatan Peninsula, Mexico","authors":"Germán Carnevali Fernández-Concha, D. Angulo, J. T. Tapia Muñoz, Ivon M. Ramírez Morillo, Rodrigo Duno de Stefano","doi":"10.17129/botsci.3300","DOIUrl":"https://doi.org/10.17129/botsci.3300","url":null,"abstract":"Background: Centrosema (Fabaceae) includes 35-44 species in the New World, 10 in Mexico, and 9 in the Yucatan Peninsula. Most species have trifoliolate leaves and bicolored flowers. Unifoliolate leaves are an infrequent character that is found in a few species, e.g., C. sagittatum (Humb. & Bonpl. ex Willd.) Brandegee, but monochromatic flowers, e.g, lacking nectar guides, is even a more unusual character state. Several populations of a Centrosema from the Yucatan Peninsula share both character states, a combination that sets them apart from other members of the genus. \u0000Question: Is the Centrosema with unifoliolate leaves, alate petioles, and monochromatic flowers of the Yucatan Peninsula, a species distinct from the phenetically similar C. sagittatum? \u0000Studies species: Centrosema (Fabaceae, Papilionoideae). \u0000Study site and dates: Yucatan Peninsula, Mexico, 2021-2023. \u0000Methods: Botanical specimens were collected and determined taxonomically through the use of relevant literature, keys, and the consulting of botanical collections. The conservation status of the new species was assessed using the IUCN methodology. \u0000Results: The specimens collected do represent an undescribed species that differs from Centrosema sagittatum by its smaller, cream-yellow, monochromatic flowers. The species is assessed as Endangered (EN). \u0000Conclusions: A new species, Centrosema flavescens from the Yucatan Peninsula is proposed. Eleven species of Centrosema are now recognized in Mexico, nine in the Yucatan Peninsula. C. sagittatum does not occur in the Yucatan peninsula.","PeriodicalId":54375,"journal":{"name":"Botanical Sciences","volume":" ","pages":""},"PeriodicalIF":1.4,"publicationDate":"2023-05-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"46124911","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
引用次数: 0
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Botanical Sciences
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