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排序方式: 共有97条查询结果,搜索用时 15 毫秒
1.
在浙江省百山祖自然保护区虫生真菌调查中发现松树上的菱沫蝉(Agrophora sp.)的新病原真菌一种,因其分生孢子远大于任何已知种虫疫霉,故定为新种巨孢虫疫霉(Eryniagigantea Li,Chert et Xu)。其初生分生孢子长倒拟卵形或拟纺锤形,对称或略弯曲,42.6—76.7×l 2.3—26.0μm(平均57.6×l 8.6μm),长径比2.2—4.9(平均3.1);顶稍圆或尖削;基部乳突略钝,有时有孢领。次生分生孢子倒拟卵形至广倒拟卵形;毛管分生孢子未见。假根成束。假囊状体及休眠孢子未见。 相似文献
2.
Mats E. Johansson 《植被学杂志》1993,4(5):621-632
Abstract. Two marginal and two central populations of the pseudo-annual aquatic plant Ranunculus lingua were studied over four years. The main purpose was to quantify potentially influential abiotic and biotic factors and to derive predictions about life-history differences between the populations. Variation in abundance and height of R. lingua ramets at different depths were related to water-level fluctuations, to abundance of other helophyes (emergent macrophytes), and to the occurrence of invertebrate grazing and fungal pathogens. Clear differences between marginal and central populations were shown in the depth distribution of ramet numbers and ramet heights, as well as in the dynamic patterns, where marginal populations had a higher flux of ramets. These patterns and regression analyses indicated that abiotic factors have a greater influence in marginal populations, whereas biotic factors are more important in central populations. It is suggested that marginal habitats for R. lingua would favour life-histories with a high reproductive capacity, whereas a large size of ramet would be the most important life-history feature in central habitats. This was supported by the fact that ramets in marginal populations, in spite of their smaller size, produced higher number of rhizomes than ramets in central populations. Variation in regional abundance was finally related to differences in demographic processes and dispersal potential between the populations. 相似文献
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Liparis indiraii spec. nova from India is close toL. alata
A. Rich. andL. atropurpurea
Lindl. 相似文献
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西藏东南部柏木属植物群落是青藏高原天然林资源的重要组分,在维持高原生物多样性与生态安全方面作用显著.为明确其群落类型及物种多样性,本研究通过在米林县、朗县和波密县设置典型样地和划分群落类型,分析了不同群落物种组成、物种多样性指数及建群种径级结构.结果表明: 柏木属植物群落可划分为4个群落类型:西藏柏木-柳叶忍冬+绒毛山梅花-凤尾蕨+紫马唐群落(群落Ⅰ)、巨柏-圆锥山蚂蝗+砂生槐-线形草沙蚕+芸香草+固沙草群落(群落Ⅱ)、巨柏-甘肃野丁香-杂配藜+固沙草群落(群落Ⅲ)、巨柏-小蓝雪花-藏沙蒿+固沙草+蒺藜群落(群落Ⅳ).各群落Margalef丰富度指数、Shannon多样性指数、Pielou均匀度指数及种间相遇机率指数均表现为:群落Ⅰ>群落Ⅱ>群落Ⅲ>群落Ⅳ.4个群落的建群种幼龄级个体多而中老龄级少,植株由幼龄级向中龄级过渡阶段死亡率较高,柏木属植物种群呈衰退趋势. 相似文献
6.
F. Gzde ilingir Dennis Hansen Nancy Bunbury Erik Postma Richard Baxter Lindsay Turnbull Arpat Ozgul Christine Grossen 《Ecology and evolution》2022,12(3)
Aldabrachelys gigantea (Aldabra giant tortoise) is one of only two giant tortoise species left in the world and survives as a single wild population of over 100,000 individuals on Aldabra Atoll, Seychelles. Despite this large current population size, the species faces an uncertain future because of its extremely restricted distribution range and high vulnerability to the projected consequences of climate change. Captive‐bred A. gigantea are increasingly used in rewilding programs across the region, where they are introduced to replace extinct giant tortoises in an attempt to functionally resurrect degraded island ecosystems. However, there has been little consideration of the current levels of genetic variation and differentiation within and among the islands on Aldabra. As previous microsatellite studies were inconclusive, we combined low‐coverage and double‐digest restriction‐associated DNA (ddRAD) sequencing to analyze samples from 33 tortoises (11 from each main island). Using 5426 variant sites within the tortoise genome, we detected patterns of within‐island population structure, but no differentiation between the islands. These unexpected results highlight the importance of using genome‐wide genetic markers to capture higher‐resolution genetic structure to inform future management plans, even in a seemingly panmictic population. We show that low‐coverage ddRAD sequencing provides an affordable alternative approach to conservation genomic projects of non‐model species with large genomes. 相似文献
7.
To help understand carbon balance between shoots and developing roots, 41 bare-root crassulacean acid metabolism (CAM) plants native to the Sonoran Desert were studied in a glass-panelled sealable room at day/night air temperatures of 25/15 degrees C. Net CO(2) uptake by the community of Agave schottii, Carnegia gigantea, Cylindropuntia versicolor, Ferocactus wislizenii and Opuntia engelmannii occurred 3 weeks after watering. At 4 weeks, the net CO(2) uptake rate measured for south-east-facing younger parts of the shoots averaged 1.94 micro mol m(-2) s(-1) at night, considerably higher than the community-level nocturnal net CO(2) uptake averaged over the total shoot surface, primarily reflecting the influences of surface orientation on radiation interception (predicted net CO(2) uptake is twice as high for south-east-facing surfaces compared with all compass directions). Estimated growth plus maintenance respiration of the roots averaged 0.10 micro mol m(-2) s(-1) over the 13-week period, when the community had a net carbon gain from the atmosphere of 4 mol C while the structural C incorporated into the roots was 23 mol. Thus, these five CAM species diverted all net C uptake over the 13-week period plus some existing shoot C to newly developing roots. Only after sufficient roots develop to support shoot water and nutrient requirements will the plant community have net above-ground biomass gains. 相似文献
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Crassulacean acid metabolism (CAM) is recognized as a photosynthetic adaptation of plants to arid habitats. This paper presents a proof-of-concept evaluation of partitioning net CO2 exchanges for soil and plants in an arid, exclusively CAM mesocosm, with soil depth and succulent plant biomass approximating that of natural Sonoran Desert ecosystems. We present the first evidence that an enclosed CAM-dominated soil and plant community exposed to a substantial day/night temperature difference (30/20 degrees C), exhibits a diel gas exchange pattern consisting of four consecutive phases with a distinct nocturnal CO2 uptake. These phases were modulated by plant assimilation and soil respiration processes. Day-time stomatal closure of the CAM cycle during phase III was used to eliminate aboveground photosynthetic assimilation and respiration and thereby to estimate belowground plant plus soil respiration. Rapid changes in temperature appeared to synchronize single plant gas exchange but individual plant gas exchange patterns were desynchronized at constant day/night temperatures (25 degrees C), masking the distinct mesocosm pattern. Overall, the mean carbon budget of this CAM model Sonoran Desert system was negative, releasing an average of 22.5 mmol CO2 m-2 d-1. The capacity for nocturnal CO2 assimilation in this exclusively CAM mesocosm was inadequate to recycle CO2 released by plant and soil respiration. 相似文献