三裂叶豚草雄花序分化的气候效应分析

【背景】三裂叶豚草是一种外来恶性杂草,它的入侵不仅影响当地的生物多样性和生态系统,而且给农牧业造成巨大的经济损失。此外,其花粉量大,是引起人体一系列过敏反应的致敏源。【方法】通过对2008～2010年三裂叶豚草分化时期和气象因素进行调查,以当年分化开始前一个月至分化结束的日最高气温、日最低气温、日平均气温、相对湿度、日照时间等数据,分析影响三裂叶豚草雄花序分化的气象因子。【结果】雄花序从未分化期至成熟期平均需26d。三裂叶豚草营养生长后期,较短的日照时间和日平均气温、较高的相对湿度和较大的温差等环境条件有利于三裂叶豚草雄花序较早地开始分化。而在分化早期,长时间较高的相对湿度不利于雄花序的分化。【结论与意义】外界环境的变化能够影响三裂叶豚草雄花序的分化,对其分化开始时间起决定性作用。本研究为制定合理的三裂叶豚草防治措施提供了理论依据,同时为进一步研究其生物安全性提供了参考。     

A palynotaxonomic study of Korean<Emphasis Type="Italic">Adonis</Emphasis> (Ranunculaceae)

The pollen morphology of KoreanAdonis was examined to clarify its specific recognition. Pollen grains were divided into two major types, according to the size and number of their echinae; those with many small echinae were further subdivided into two subtypes: 2 to 3 aligned foveolae vs. unaligned foveolae. The three types of pollen morphology determined here agree well with recent taxonomic treatments of KoreanAdonis. Those analyses, based on morphological and molecular properties, previously recognizedAdonis amurensis, Adonis multiflora, andAdonis pseudoa-murensis.     

Contrasting Climatic Controls on the Estimated Productivity of Global Terrestrial Biomes

Net primary productivity (NPP) represents the greatest annual carbon flux from the atmosphere to the biosphere, is an important component of seasonal fluctuations in atmospheric CO₂ concentrations, and is the most critical biotic component of the global carbon cycle. NPP measures products of major economic and social importance, such as crop yield and forest production. Given that global NPP can not be measured directly, model simulations must provide understanding of its global spatial and temporal dynamics. In this study, we used the biogeochemical model BIOME-BGC to simulate global terrestrial NPP and assessed relative importance of climatic controls (temperature, water availability, and radiation) in limiting NPP in the array of climatic combinations found globally. The degree of limitation on NPP by climatic controls was defined by using an empirical membership function. Results showed that temperature or water availability limited NPP over larger land areas (31% and 52%, respectively) than did radiation limitation (5%). Climatic controls appeared to be important in limiting productivity in most vegetation biomes, except for evergreen broadleaf forests. Nevertheless, there were areas of the globe (12%) where none of the climatic factors appeared to limit NPP. Our research has suggested that other environmental controls, such as nutrient availability or biological constraints, should then be considered. The wide distribution of NPP between zero and the upper boundary values in the correlation plots indicated that multivariate environmental balances, not single limiting factors, controlled biospheric productivity. Received 27 August 1997; accepted 19 November 1997.     

Climatic niche evolution in turtles is characterized by phylogenetic conservatism for both aquatic and terrestrial species

Understanding how the climatic niche of species evolved has been a topic of high interest in current theoretical and applied macroecological studies. However, little is known regarding how species traits might influence climatic niche evolution. Here, we evaluated patterns of climatic niche evolution in turtles (tortoises and freshwater turtles) and whether species habitat (terrestrial or aquatic) influences these patterns. We used phylogenetic, climatic and distribution data for 261 species to estimate their climatic niches. Then, we compared whether niche overlap between sister species was higher than between random species pairs and evaluated whether niche optima and rates varied between aquatic and terrestrial species. Sister species had higher values of niche overlap than random species pairs, suggesting phylogenetic climatic niche conservatism in turtles. The climatic niche evolution of the group followed an Ornstein–Uhlenbeck model with different optimum values for aquatic and terrestrial species, but we did not find consistent evidence of differences in their rates of climatic niche evolution. We conclude that phylogenetic climatic niche conservatism occurs among turtle species. Furthermore, terrestrial and aquatic species occupy different climatic niches but these seem to have evolved at similar evolutionary rates, reinforcing the importance of habitat in understanding species climatic niches and their evolution.     

Molecular evidence for the taxonomic identity of Korean Adonis (Ranunculaceae)

 Although Korean Adonis has been traditionally recognized as Adonis amurensis Regel and Radde with various infraspecific taxa described, its taxonomic identity is still in dispute. We investigated the genetic variation in 60 individuals from 12 populations in Korea to elucidate the taxonomic identity of the Korean Adonis complex. Random amplified polymorphic DNA (RAPD) analysis revealed that Korean Adonis comprises three species: A. amurensis, A. pseudoamurensis, and A. multiflora. Adonis amurensis is distributed in northern central inland regions of Korea and A. pseudoamurensis is found in southern parts of the Korean peninsula. Adonis multiflora grows only on Cheju Island, which is the southernmost part of Korea. Phylogenetic analysis of nuclear ribosomal internal transcribed spacer (ITS) sequences partially supported the presence of three Adonis taxa in Korea as detected by RAPD analysis. The Adonis population on Jangbong Island located in the West Sea, which was referred to as A. pseudoamurensis on the basis of morphological examination, was separated from the other populations of A. pseudoamurensis. Otherwise, the molecular evidence is well congruent with the recent morphological study that proposes that Korean Adonis consists of these three species. Received: November 6, 2001 / Accepted: February 26, 2002     

国产毛莨属11种及其4个近缘属5种植物的细胞学研究

研究了国产毛莨属RanunculusL.11种及其4个远缘属－美花草属CollianthemunC.A.Meyer,侧金盏花属AdonisL．、碱毛莨属Halerpestes E.Greene,水毛莨属BatrachiumS.F.Gray5种植物的洒色体数目和形态。发现美花草C.pinpinelloides(D.Don)Hook.f.et THoms.,川滇毛莨R.potaninii Kom.,深齿毛莨R.popovii var.stracheyanus(Maxim.)W.T.Wang,高原毛莨R.tanguticus(Maxim.)Ovcx., 石龙芮R.sceleratusL.,西南毛莨R.ficariifolius Levl.et Vant.、褐鞘毛莨R.sinovaginatus W.T.Wang、三裂碱毛莨H.tricuspis(Maxim.)Hand.-Mazz.和碱毛莨H.sarmentosa（Adams)Kom.9种植物为染色体基数x=8的四倍体（2n=4x=32）;短注侧金盏花A.brevistyla Franch．、丝叶毛莨R.nematolobus Hand.-Mass.、棱喙毛莨3R.trigonus Hand.-Mazz.、 茴茴蒜R.chinensis Bunge4种植物为染色体基数x=8的二倍体(2n=2x=16);毛莨R.japonicus Thunb.、黄毛莨R.laetus Wall.2种植物为染色体基数x=7的二倍体（2n=2x=14);水毛莨B.bungei(Steud.)L.Liou有二倍体（2n=2x=16)和三倍体（2n=3x=24)两种细胞型。根据染体资料,讨论了上述5属的属间关系和毛莨属中一些种的种间关系。     

论立体农业气候生态

开发立体农业,可以充分发挥土地、光能、热量、水源等自然资源的潜力;可以充分利用空间和时间,通过间套混、铺挂架等立体种植和层养、混养等立体养殖,较大幅度提高单     

Forest Pattern, Fire, and Climatic Change in the Sierra Nevada

In the Sierra Nevada, distributions of forest tree species are largely controlled by the soil-moisture balance. Changes in temperature or precipitation as a result of increased greenhouse gas concentrations could lead to changes in species distributions. In addition, climatic change could increase the frequency and severity of wildfires. We used a forest gap model developed for Sierra Nevada forests to investigate the potential sensitivity of these forests to climatic change, including a changing fire regime. Fuel moisture influences the fire regime and couples fire to climate. Fires are also affected by fuel loads, which accumulate according to forest structure and composition. These model features were used to investigate the complex interactions between climate, fire, and forest dynamics. Eight hypothetical climate-change scenarios were simulated, including two general circulation model (GCM) predictions of a 2 × CO₂ world. The response of forest structure,species composition, and the fire regime to these changes in the climate were examined at four sites across an elevation gradient. Impacts on woody biomass and species composition as a result of climatic change were site specific and depended on the environmental constraints of a site and the environmental tolerances of the tree species simulated. Climatic change altered the fire regime both directly and indirectly. Fire frequency responded directly to climate's influence on fuel moisture, whereas fire extent was affected by changes that occurred in either woody biomass or species composition. The influence of species composition on fuel-bed bulk density was particularly important. Future fires in the Sierra Nevada could be both more frequent and of greater spatial extent if GCM predictions prove true. Received 5 May 1998; accepted 4 November 1998.     

Nitrogen Removal by Riparian Buffers along a European Climatic Gradient: Patterns and Factors of Variation

We evaluated nitrogen (N) removal efficiency by riparian buffers at 14 sites scattered throughout seven European countries subject to a wide range of climatic conditions. The sites also had a wide range of nitrate inputs, soil characteristics, and vegetation types. Dissolved forms of N in groundwater and associated hydrological parameters were measured at all sites; these data were used to calculate nitrate removal by the riparian buffers. Nitrate removal rates (expressed as the difference between the input and output nitrate concentration in relation to the width of the riparian zone) were mainly positive, ranging from 5% m⁻¹ to 30% m⁻¹, except for a few sites where the values were close to zero. Average N removal rates were similar for herbaceous (4.43% m⁻¹) and forested (4.21% m⁻¹) sites. Nitrogen removal efficiency was not affected by climatic variation between sites, and no significant seasonal pattern was detected. When nitrate inputs were low, a very large range of nitrate removal efficiencies was found both in the forested and in the nonforested sites. However, sites receiving nitrate inputs above 5 mg N L⁻¹ showed an exponential negative decay of nitrate removal efficiency (nitrate removal efficiency = 33.6 e^{−0.11 NO3input}, r ² = 0.33, P < 0.001). Hydraulic gradient was also negatively related to nitrate removal (r = −0.27, P < 0.05) at these sites. On the basis of this intersite comparison, we conclude that the removal of nitrate by biological mechanisms (for example, denitrification, plant uptake) in the riparian areas is related more closely to nitrate load and hydraulic gradient than to climatic parameters. Received 15 August 2001; accepted 2 May 2002.     

Spatial variation in the climatic predictors of species compositional turnover and endemism

Previous research focusing on broad‐scale or geographically invariant species‐environment dependencies suggest that temperature‐related variables explain more of the variation in reptile distributions than precipitation. However, species–environment relationships may exhibit considerable spatial variation contingent upon the geographic nuances that vary between locations. Broad‐scale, geographically invariant analyses may mask this local variation and their findings may not generalize to different locations at local scales. We assess how reptile–climatic relationships change with varying spatial scale, location, and direction. Since the spatial distributions of diversity and endemism hotspots differ for other species groups, we also assess whether reptile species turnover and endemism hotspots are influenced differently by climatic predictors. Using New Zealand reptiles as an example, the variation in species turnover, endemism and turnover in climatic variables was measured using directional moving window analyses, rotated through 360°. Correlations between the species turnover, endemism and climatic turnover results generated by each rotation of the moving window were analysed using multivariate generalized linear models applied at national, regional, and local scales. At national‐scale, temperature turnover consistently exhibited the greatest influence on species turnover and endemism, but model predictive capacity was low (typically r² = 0.05, P < 0.001). At regional scales the relative influence of temperature and precipitation turnover varied between regions, although model predictive capacity was also generally low. Climatic turnover was considerably more predictive of species turnover and endemism at local scales (e.g., r² = 0.65, P < 0.001). While temperature turnover had the greatest effect in one locale (the northern North Island), there was substantial variation in the relative influence of temperature and precipitation predictors in the remaining four locales. Species turnover and endemism hotspots often occurred in different locations. Climatic predictors had a smaller influence on endemism. Our results caution against assuming that variability in temperature will always be most predictive of reptile biodiversity across different spatial scales, locations and directions. The influence of climatic turnover on the species turnover and endemism of other taxa may exhibit similar patterns of spatial variation. Such intricate variation might be discerned more readily if studies at broad scales are complemented by geographically variant, local‐scale analyses.     

Ecological biogeography of North American mammals: species density and ecological structure in relation to environmental gradients

Aim To evaluate the relationship of climate and physiography to species density and ecological diversity of North American mammals. Location North America, including Mexico and Central America. Methods Species density, size structure and trophic structure of mammalian faunas and nine environmental variables were documented for quadrats covering the entire continent. Spatial autocorrelation of species density and the environmental variables illustrated differences in their spatial structure at the continental scale. We used principal component analysis to reduce the dimensionality of the climatic variables, linear multiple regression to determine which environmental variables best predict species density for the continent and several regions of the continent, and canonical ordination to evaluate how well the environmental variables predict ecological structure of mammalian faunas over North America. Results In the best regression model, five environmental variables, representing seasonal extremes of temperature, annual energy and moisture, and elevation, predicted 88% of the variation in species density for the whole continent. Among different regions of North America, the environmental variables that predicted species density vary. Changes in the size and trophic structure of mammalian faunas accompany changes in species density. Redundancy analysis demonstrated that environmental variables representing winter temperature, frostfree period, potential and actual evapotranspiration, and elevation account for 77% of the variation in ecological structure. Main conclusions The latitudinal gradient in mammalian species density is strong, but most of it is explained by variation in the environmental variables. Each ecological category peaks in species richness under particular environmental conditions. The changes of greatest magnitude involve the smallest size categories (< 10 g, 11–100 g), aerial insectivores and frugivores. Species in these categories, mostly bats, increase along a gradient of decreasing winter temperature and increasing annual moisture and frostfree period, trends correlated with latitude. At the opposite end of this gradient, species in the largest size category (101–1000 kg) increase in frequency. Species in size categories 3 (101–1000 g), 5 (11–100 kg) and 6 (101–1000 kg), herbivores, and granivores increase along a longitudinal gradient of increasing annual potential evapotranspiration and elevation. Much of the spatial pattern is consistent with ecological sorting of species ranges along environmental gradients, but differential rates of speciation and extinction also may have shaped the ecological diversity of extant North American mammals.     

Role of selection and gene flow in population differentiation at the edge vs. interior of the species range differing in climatic conditions

Evaluating the relative importance of neutral and adaptive processes as determinants of population differentiation across environments is a central theme of evolutionary biology. We applied the Q_ST–F_ST comparison flanked by a direct test for local adaptation to infer the role of climate‐driven selection and gene flow in population differentiation of an annual grass Avena sterilis in two distinct parts of the species range, edge and interior, which represent two globally different climates, desert and Mediterranean. In a multiyear reciprocal transplant experiment, the plants of desert and Mediterranean origin demonstrated home advantage, and population differentiation in several phenotypic traits related to reproduction exceeded neutral predictions, as determined by comparisons of Q_ST values with theoretical F_ST distributions. Thus, variation in these traits likely resulted from local adaptation to desert and Mediterranean environments. The two separate common garden experiments conducted with different experimental design revealed that two population comparisons, in contrast to multi‐population comparisons, are likely to detect population differences in virtually every trait, but many of these differences reflect effects of local rather than regional environment. We detected a general reduction in neutral (SSR) genetic variation but not in adaptive quantitative trait variation in peripheral desert as compared with Mediterranean core populations. On the other hand, the molecular data indicated intensive gene flow from the Mediterranean core towards desert periphery. Although species range position in our study (edge vs. interior) was confounded with climate (desert vs. Mediterranean), the results suggest that the gene flow from the species core does not have negative consequences for either performance of the peripheral plants or their adaptive potential.     

紫苞翠雀花的名实问题和锡金翠雀花的确认

通过仔细检查紫苞翠雀花Delphinium purpurascens W. T. Wang、 粘毛翠雀花D. viscosum Hook. f. &; Thoms. 和锡金翠雀花 D. conocentrum Chatterjee的模式,发现紫苞翠雀花和粘毛翠雀花在所有性状上都没有本质区别,二者的小苞片特征相同,干时均为蓝紫色,船状披针形,着生于花梗上部,通常对生。本文将这二种予以归并。锡金翠雀花的小苞片绿色,宽披针形,与花邻接,与粘毛翠雀花易于区别,故该种应是一个独立的种。本文恢复了其种的地位。     

我国珍稀荒漠灌木半日花的适宜气候生态引种区的研究

我国珍稀荒漠灌木半日花的适宜气候生态引种区的研究李新荣（中国科学院植物研究所,北京１０００９３）ＡＳｔｕｄｙｏｆＣｌｉｍａｔｉｃＳｕｉｔａｂｌｅＥｃｏｔｏｐｅｓｆｏｒＩｎｔｒｏｄｕｃｔｉｏｎｏｆＣｈｉｎｅｓｅＲａｒｅＤｅｓｅｒｔｉｆｉｃＳｈｒｕｂＨｅ...     

Late pleistocene climatic reconstruction in North Africa and the emergence of modern Europeans

A critical evaluation of a replacementist hypothesis regarding the origin of modernH. sapiens in Europe as suggested byN. T. Boaz D. Ninkovitch & M. Rossignol-Strick (1982) is presented. These authors have contended that harsh desertic conditions in North Africa between 40 ky — 30 ky B. P. resulted in the movement of modern humans from this region around the Mediterranean littoral into Europe. Two additional tenets of this hypothesis are the claim that Neandertals were islated in Europe during the first half of the Würm and also the assertion that formation of a landbridge at the Dardanelles ca. 34 ky B. P. ended this isolation and facilitated an influx of modern humans into Europe at this time. This hypothesis is found to be unsupported by the balance of the available data. The specific points discussed include the following: a) climatic and archaeological indicators of a hospitable environment in North Africa between 40 ky — 30 ky B.P., b) the likelihood of landbridge formation at the Dardanelles throughout the last glacial cycle, c) the technological capabilities and uncertain taxonomic identity of the North African source group and d) the similarities between west Asian and European Neandertals which indicate that a prolonged separation of the two groups is unlikely.     

POWSIM: a computer program for assessing statistical power when testing for genetic differentiation

Knowledge of statistical power is essential for sampling design and data evaluation when testing for genetic differentiation. Yet, such information is typically missing in studies of conservation and evolutionary genetics, most likely because of complex interactions between the many factors that affect power. powsim is a 32‐bit Windows/DOS simulation‐based computer program that estimates power (and α error) for chi‐square and Fisher's exact tests when evaluating the hypothesis of genetic homogeneity. Optional combinations include the number of samples, sample sizes, number of loci and alleles, allele frequencies, and degree of differentiation (quantified as F_ST). powsim is available at http://www.zoologi.su.se/~ryman .     

Climatic niche and neutral genetic diversity of the six Iberian pine species: a retrospective and prospective view

Quaternary climatic fluctuations have left contrasting historical footprints on the neutral genetic diversity patterns of existing populations of different tree species. We should expect the demography, and consequently the neutral genetic structure, of taxa less tolerant to particular climatic extremes to be more sensitive to long‐term climate fluctuations. We explore this hypothesis here by sampling all six pine species found in the Iberian Peninsula (2464 individuals, 105 populations), using a common set of chloroplast microsatellite markers, and by looking at the association between neutral genetic diversity and species‐specific climatic requirements. We found large variation in neutral genetic diversity and structure among Iberian pines, with cold‐enduring mountain species (Pinus uncinata, P. sylvestris and P. nigra) showing substantially greater diversity than thermophilous taxa (P. pinea and P. halepensis). Within species, we observed a significant positive correlation between population genetic diversity and summer precipitation for some of the mountain pines. The observed pattern is consistent with the hypotheses that: (i) more thermophilous species have been subjected to stronger demographic fluctuations in the past, as a consequence of their maladaptation to recurrent glacial cold stages; and (ii) altitudinal migrations have allowed the maintenance of large effective population sizes and genetic variation in cold‐tolerant species, especially in more humid regions. In the light of these results and hypotheses, we discuss some potential genetic consequences of impending climate change.     

A rapid technique for assessing the suitability of areas for invasive species applied to New Zealand's rivers

Early responses to incursions of non‐indigenous species (NIS) into new areas include modelling and surveillance to define the organisms’ potential and actual distributions. For well‐studied invasive species, predictive models can be developed based on quantitative data describing environmental tolerances. In late 2004, an invasive freshwater diatom Didymosphenia geminata, an NIS for which we had no such quantitative data, was detected in a New Zealand river. We describe a procedure used to rapidly develop a classification of suitability for all New Zealand's rivers, based on two sources of information. First, from a review of the limited available literature and unpublished data, we determined that temperature, hydrological and substrate stability, light availability, and water pH were the most important environmental gradients determining D. geminata's broad‐scale distribution and capacity for establishing and forming blooms in rivers. The second information source was a GIS‐based river network developed for a national classification of New Zealand's rivers, with associated data describing environmental characteristics of each section of the network. We used six variables that were available for every section of the network as surrogates for the environmental gradients that determine suitability. We then determined the environmental distance of all the river sections in the network from our assessment of the optimal conditions conducive to D. geminata blooms. The analysis suggested that > 70% of New Zealand's river sections (stream order > 3) fell into the two highest suitability categories (on a five‐point scale). At the time of writing, D. geminata had spread to 12 catchments, all of which were within these two categories. The technique is applicable in initial responses to incursions of NIS where quantitative information is limited, and makes optimal use of available qualitative information. Our assessment contributed to evaluations of the potential ecological, social, and economic impacts of D. geminata and is currently being used to stratify site selection for ongoing surveillance.