Temperature-related sex allocation shifts in a recovering keystone species,Pinus palustris

Summary

In the light of all that has been discovered about the mechanism of evolution it has become tempting to follow Darwin's lead and to “see no limit to this power“. Yet a careful examination of situations in which evolution is known to be occurring in some species, shows complete absence of evolution in others. This not because these species have not had the opportunity; in many situations there may even be uncolonised bare space.

The explanation must lie in the supply of appropriate variation. A tacit assumption of evolution by natural selection is that the necessary variation is always available. Yet there is no a priori justification for this. Evidence from populations in nature, particularly of species which are potential colonists of old metal mine workings and similar metal contaminated habitats, shows that the species that successfully colonise these habitats, by the evolution of metal tolerant populations, possess within their normal populations the necessary variation. But those species which fail to colonise these habitats, despite the opportunity, do not possess this variation. This applies also at the level of the population, in the replicated evolutionary situations occurring under electricity pylons.

Such evidence, together with arguments from theory, suggests that the failures of evolution have been as important as its successes in moulding the living world as we see it today, and that the reasons for failure must be sought at the molecular level in limitations to the origin of new variation.     

Canopy cover and understory composition determine abundance of Vaccinium myrtillus L., a key plant for capercaillie (Tetrao urogallus), in subalpine forests in the Pyrenees

Background: The dwarf shrub Vaccinium myrtillus – with high cover, height, and fruit production – benefits capercaillie (Tetrao urogallus).

Aims: Our aim was to quantify landscape (e.g. elevation, geographic location, and precipitation), site (e.g. overstorey cover and stoniness) and very fine scale factors (e.g. spatial associations in the understorey) that affect cover, height, and fruit production of V. myrtillus in subalpine forests in thePyrenees, with understorey usually dominated by Rhododendron ferrugineum.

Methods: We sampled 155 plots (0.5 m × 5 m) in six sites. For each plot, in the understorey layer, we assessed species cover, height for R. ferrugineum and V. myrtillus, number of total fruits in V. myrtillus, and spatial associations among V. myrtillus and the remaining cover types.

Results: Overstorey cover negatively influenced V. myrtillus cover, its height, and particularly, the number of fruits, which was also negatively influenced by R. ferrugineum cover. Associations between R. ferrugineum and V. myrtillus were site dependent, while V. myrtillus showed mostly positive associations with grasses and mosses.

Conclusions: Reducing overstorey and R. ferrugineum cover has the strongest positive effect on increasing V. myrtillus fruit production, but with additional positive effects on V. myrtillus cover and height. Increases in grass and moss coverage could favour V. myrtillus.     

Response of soil microbial biomass and activity in early restored lands in the northeastern Brazilian Atlantic Forest

Intensive land use of the Brazilian Atlantic Forest accelerated with the rise of sugar cane plantations in the northeastern part of Brazil. Consequently, many ecosystems were destroyed, including riparian forests. The number of studies of riparian restoration has increased but comparative studies on the belowground effects of common reforestation strategies are rare. Here, we compared soil microbial properties among four different land use types: native rainforest, sugar cane plantation, single species reforestation, and mixed species reforestation, each replicated at two spatially independent sites. Soil samples were taken in 2013 and 2014, that is 2 and 3 years after reforestation, respectively. In both years, land use types had a significant effect on basal respiration, microbial biomass, and specific respiration (whereas specific respiration was marginally affected in 2014). In 2013, basal respiration in sugar cane plantations was significantly lower (?65%) when compared to native forests. In 2014, basal respiration (+60%) and soil microbial biomass (+90%) were significantly higher in mixed species reforestation compared to sugar cane, whereas single species reforestation had comparable values as in sugar cane plantations. Our results indicate that soil microbial biomass and activity respond rapidly to land use change when mixed species reforestation is used. Thus, using mixed species reforestation may enhance the provisioning of ecosystem services already in the short term.     

Managing red pine stand structure to mitigate drought impacts

Reducing forest stand density through silvicultural thinning has demonstrated potential to mitigate drought impacts on growth; however, less has been studied on how changes in stand structure created by different thinning methods influence forest growth responses to drought. This research examined the growth responses to drought of natural-origin red pine in a long-term study contrasting thinning methods. Dendrochronological methods were used to examine growth responses during several drought events among stands where different thinning methods have been applied since 1950. Growth responses to drought were expressed as resistance (maintaining growth during drought), and resilience (regaining pre-drought growth). Results indicate that periodic thinning from above, which resulted in smaller diameters, has the potential to moderate drought-induced growth reductions. Larger tree diameters negatively influenced tree-level resistance and resilience across all treatments; however, the proportion of dominant trees in a stand had contrasting effects on stand-level drought responses. Stands thinned from above exhibited more complex vertical structure and increased stand-level resistance and resilience to drought-induced growth declines because competition is more stratified among smaller diameter trees. Opposite trends were observed in stands thinned from below, where the larger diameters and monolayered structure create greater competition among trees of similar size and crown position. The results of this study highlight the utility in managing for greater structural diversity to mitigate the negative effects of drought in red pine forest ecosystems.     

How needle phenology indicates the changes of xylem cell formation during drought stress in Pinus sylvestris L.

Temperature, water availability and photoperiod are the primary drivers of tree phenological processes. However, there is lack of information how the spring temperature and summer drought affect phenology of both cambium and needles. We evaluated the interplay between xylem and needle development of mature Scots pine trees in three consecutive years differing in the spring temperatures and onset and duration of summer drought. Cambial activity began on the day of a year (DOY) 83–87, while the bud break occurred on DOY 113–119, when also the secondary cell wall of tracheids started its formation. While the timing of bud break correlated with the sum of effective temperatures, the beginning of cambial zone activity did not. The needles were fully unfolded around DOY 170, which corresponded to the transition between earlywood and latewood tracheids. Summer drought did not affect needle development, but it changed the rate of production and morphology of latewood tracheids. Latewood tracheids from the year 2015 when the drought was longest (i.e. until the second half of August in 2015 compared to the duration from June until the middle of July in the two other years) were 32% narrower and they had 34% thinner cell walls than in 2014 and 2016. The improvement of tree water status in July resulted in the formation of intra-annual density fluctuations (IADF). The interplay between needle and cambium phenology provided an insight into how the tree allocates the resources with varying temperature and soil water availability.     

长白山区阔叶红松林经营历史与研究历程

长白山区位于中国东北东部的山地森林区,地带性植被是阔叶红松林,是我国珍贵木材生产和东北森林带的重要载体,孕育着丰富的物种资源.短短120年来,长白山区广袤的原始森林几乎消失殆尽,被次生林、过伐林和人工林等替代.建国以来,东北的阔叶红松林经营理论与技术在红松更新规律、皆伐与择伐的争论中,在人们对阔叶红松林结构和功能认识不断深入的过程中逐渐完善.但目前红松更新问题依然存在,森林经营依然十分粗放.本文梳理了过去70年来阔叶红松林的经营历史及研究历程,分析当前森林资源类型和经营制度的形成过程,以期为该区天然林可持续经营和质量的精准提升等提供借鉴.     

未来气候变化对不同国家茶适宜分布区的影响

茶是对气候变化敏感的重要经济作物, 评价全球气候变化对茶分布和生产的影响对相关国家经济发展和茶农的生计至关重要。本研究基于全球858个茶分布点和6个气候因子数据, 利用物种分布模型预测全球茶的潜在适宜分布区及其在2070年的不同温室气体排放情景(RCP2.6和RCP8.5)下的变化。结果表明: 当前茶在五大洲均有适宜分布区, 主要集中在亚洲、非洲和南美洲, 并且最冷季平均温和最暖季降水量主导了茶的分布。预计2070年, 茶的适宜分布区变化在不同的大洲、国家和气候情景间将存在差异。具体来说, 茶的适宜分布区总面积将会减少, 减少的区域主要位于低纬度地区, 而中高纬度地区的适宜分布区将扩张, 由此可能导致茶的适宜分布区向北移动; 重要的产茶国中, 阿根廷、缅甸、越南等茶适宜分布区面积会减少57.8%-95.8%, 而中国和日本的适宜分布面积则会增加2.7%-31.5%。未来全球新增的适宜分布区中, 约有68%的地区土地覆盖类型为自然植被, 因此可能导致新茶树种植园的开垦和自然植被及生物多样性保护产生冲突。     

林分因子对云顶山不同人工林林下植物多样性的影响

该研究采用典型抽样法,以成都云顶山5种人工林——柏木 枫杨林(BF)、银杏 楠木林(YN)、光皮梾木 香樟林(GZ)、枫杨 桤木林(FQ)、柏木林(CB)为研究对象,分析不同人工林的林下植物组成与多样性特征,并确定影响林下植物多样性的主导林分因子,为当地人工林经营管理提供理论依据。结果表明：(1)研究区共记录林下植物168种,隶属于62科130属;5种人工林灌木层与草本层的科属种数均以GZ最多。(2)5种不同人工林灌木层与草本层的优势种数分别为7、4、7、6、4种和5、4、9、9、10种,数量都较少。(3)5种人工林的Shannon Wiener多样性指数(H)、Simpson优势度指数(H′)、物种丰富度指数(D)、Pielou均匀度指数(J_sw) 均基本表现为草本层>灌木层,BF、GZ灌木层的D略高;灌木层的H、H′、D值均以GZ最大,但不同人工林的J_sw差异不显著;草本层的H、H′、D、J_sw均基本呈现CB>FQ>GZ>BF>YN趋势,GZ的D值略高于FQ。(4)6个林分因子对灌木层4个物种多样性指数的影响均无显著差异;林分平均树高、平均枝下高、平均胸径、平均冠幅和林分密度是影响草本层H、D的主要因子,但各林分因子对草本层H′、J_sw的影响差异不显著。研究认为,林分结构对林下草本层物种多样性的影响更大,平均树高、平均枝下高、平均胸径、平均冠幅、林分密度对草本层多样性有显著影响。