Altitudinal Distribution of Ammonia-Oxidizing Archaea and Bacteria in Alpine Grassland Soils Along the South-Facing Slope of Nyqentangula Mountains,Central Tibetan Plateau

Nitrogen is a major limiting nutrient for the net primary production of terrestrial ecosystems, especially on sentinel alpine ecosystem. Ammonia oxidation is the first and rate-limiting step on nitrification process and is thus crucial to nitrogen cycle. To decipher climatic influence on ammonia oxidizers, their communities were characterized by qPCR and clone sequencing by targeting amoA genes (encoding the alpha subunit of ammonia mono-oxygenase) in soils from 7 sites over an 800 m elevation transect (4400–5200 m a.s.l.), based on “space-to-time substitution” strategy, on a steppe-meadow ecosystem located on the central Tibetan Plateau (TP). Archaeal amoA abundance outnumbered bacterial amoA abundance at lower altitude (<4800 m a.s.l.), but bacterial amoA abundance was greater in surface soils at higher altitude (≥4800 m a.s.l.). Archaeal amoA abundance decreased with altitude in surface soil, while its abundance stayed relatively stable and was mostly greater than bacterial amoA abundance in subsurface soils. Conversely, bacterial amoA abundance gradually increased with altitude at all three soil depths. Statistical analysis indicated that altitude-dependent factors, in particular pH and precipitation, had a profound effect on the abundance and community of ammonia-oxidizing bacteria, but only on the community composition of ammonia-oxidizing archaea along the altitudinal gradient. These findings imply that the shifts in the relative abundance and/or community structure of ammonia-oxidizing bacteria and archaea may result from the precipitation variation along the altitudinal gradient. Thus, we speculate that altitude-related factors (mainly precipitation variation combing changed pH), would play a vital role in affecting nitrification process on this alpine grassland ecosystem located at semi-arid area on TP.     

藏鹀的自然历史、威胁和保护

藏鹀(Emberiza koslowi)是我国青藏高原东部的特有珍稀鸟种,目前关于它的资料非常匮乏.为了解藏鹀的分布、数量和基本生活史特征,促进对于该物种的有效保护,自2005年起以青海省果洛州久治县白玉乡为中心对藏鹀进行了持续6年的观察,并针对其面临的威胁采取了相应的保护措施.结果显示,藏鹀主要分布在青海的玉树、果洛和四川的阿坝一带海拔3 500～4 700 m范围内的适宜栖息地,该分布区比原有认知更靠东北,更为狭小且海拔更高.用样线法开展的藏鹀数量监测,在7.4 km2的调查范围内记录到一个18 ～33只的稳定种群.此外,还对藏鹀的筑巢、育雏和争斗等行为进行了详细描述.食肉动物的捕食、冬季食物缺乏和牲畜踩踏鸟卵是藏鹀面临的最直接威胁.通过持续监测、与当地牧民协商、建立保护小区并开展有针对性的保护,藏鹀种群趋于稳定.     

Leaf meristems: an easily ignored component of the response to human disturbance in alpine grasslands

Grazing and fencing are two important factors that influence productivity and biomass allocation in alpine grasslands. The relationship between root (R) and shoot (S) biomass and the root:shoot ratio (R/S) are critical parameters for estimating the terrestrial carbon stocks and biomass allocation mechanism responses to human activities. Previous studies have often used the belowground:aboveground biomass ratio (M_b/M_a) to replace the R/S in alpine ecosystems. However, these studies may have neglected the leaf meristem biomass, which belongs to the shoot but occurs below the soil surface, leading to a significant overestimation of the R/S ratio. We conducted a comparative study to explore the differences between the R/S and M_b/M_a at both the species (Stipa purpurea, Carex moorcroftii, and Artemisia nanschanica) and community levels on a Tibetan alpine grassland with grazing and fencing management blocks. The results revealed that the use of the M_b/M_a to express the R/S appeared to overestimate the actual value of the R/S, both at species and community levels. For S. purpurea, the M_b/M_a was three times higher than the R/S. The M_b/M_a was approximately two times higher than the R/S for the species of C. moorcroftii and A. nanschanica and at the community level. The relationships between the R‐S and M_b‐M_a exhibited different slopes for the alpine plants across all the management practices. Compared to the fenced grasslands, the plants in the grazing blocks not only allocated more biomass to the roots but also to the leaf meristems. The present study highlights the contribution of leaf meristems to the accurate assessment of shoot and belowground biomasses. The R/S and M_b/M_a should be cautiously used in combination in the future research. The understanding of the distinction between the R‐S and M_b‐M_a may help to improve the biomass allocation mechanism response to human disturbances in an alpine area.     

A modified framework for the regional assessment of climate and human impacts on net primary productivity

Improving models that depict the components of net primary production (NPP) in ecosystems will help us to better understand how climate change and human activities affect the biosphere. In this study, NPP_gap was introduced into the present human appropriation of net primary production (HANPP) framework. We introduced NPP_gap in this study as potential NPP (NPP_pot) minus the sum of ecosystem NPP (NPP_eco) and HANPP, which relates to the ability of models to depict NPP components. Using the Lhasa River region of the Tibetan Plateau, we examined temporal and spatial variations in the components of NPP over a 10-year period. Results showed that NPP_pot, HANPP and NPP_eco increased from 2000 to 2010, but at different rates and with different spatial patterns. NPP_gap each year ranged from −9.2% to 13.1% for each site and on average composed 1.2% of the total NPP_pot. NPP_gap was significantly correlated with precipitation, plant biodiversity, plant height and soil properties. NPP_gap increased if either of the previous 2 years had been wet years with relative high precipitation. An increase in the richness of palatable species would lead to a larger NPP_gap through more compensatory growth. The large fluctuation level of NPP_gap reflected the higher stability of vegetation productivity, which is caused by higher plant heights and soil maximum water capacity. This study showed the potential of the HANPP framework in regional assessment of climate and human impacts on net primary productivity. The use of the NPP_gap measure reflects the gap in our knowledge and our ability to accurately estimate the components of NPP.     

Comparison of boosted regression tree and random forest models for mapping topsoil organic carbon concentration in an alpine ecosystem

Soil organic carbon (SOC) plays an important role in soil fertility and carbon sequestration, and a better understanding of the spatial patterns of SOC is essential for soil resource management. In this study, we used boosted regression tree (BRT) and random forest (RF) models to map the distribution of topsoil organic carbon content at the northeastern edge of the Tibetan Plateau in China. A set of 105 soil samples and 12 environmental variables (including topography, climate and vegetation) were analyzed. The performance of the models was evaluated using a 10-fold cross-validation procedure. Maps of the mean values and standard deviations of SOC were generated to illustrate model variability and uncertainty. The results indicate that the BRT and RF models exhibited very similar performance and yielded similar predicted distributions of SOC. The two models explained approximately 70% of the total SOC variability. The BRT and RF models robustly predicted the SOC at low observed SOC values, whereas they underestimated high observed SOC values. This underestimation may have been caused by biased distributions of soil samples in the SOC space. Vegetation-related variables were assigned the highest importance in both models, followed by climate and topography. Both models produced spatial distribution maps of SOC that were closely related to vegetation cover. The SOC content predicted by the BRT model was clearly higher than that of the RF model in areas with greater vegetation cover because the contributions of vegetation-related variables in the two models (65% and 43%, respectively) differed significantly. The predicted SOC content increased from the northwestern to the southeastern part of the study area, average values produced by the BRT and RF models were 27.3 g kg⁻¹ and 26.6 g kg⁻¹, respectively. We conclude that the BRT and RF methods should be calibrated and compared to obtain the best prediction of SOC spatial distribution in similar regions. In addition, vegetation variables, including those obtained from remote sensing imagery, should be taken as the main environmental indicators and explicitly included when generating SOC maps in Alpine environments.     

利用SSR标记分析云南、西藏和新疆小麦的遗传多样性

用185对SSR引物对52份中国西部特有小麦的遗传多样性进行了研究分析。在31份云南小麦材料中,共检测到488个等位变异,每一个SSR引物可检测到1至9个等位变异,平均为2.64个;平均PIC值为0.2764。在15份西藏小麦材料中,共检测到472个等位变异,每个引物可扩增出1到8个等位变异,平均为2.55个;平均PIC值为0.3082。在6份新疆小麦材料中,共检测到308个等位变异,每一个SSR引物可检测1到5个等位变异,平均为1.66个;平均PIC值为0.1944。185对SSR引物在云南、西藏和新疆小麦的21条染色体、7个部分同源群和3个染色体组上检测到的等位位点的多态性存在明显差异。云南、西藏和新疆小麦均以3B染色体较高,而1D染色体最低;在7个部分同源群中,均以第三部分同源群最高,第六部分同源群最低;在A、B和D染色体组上,均以B染色体组最高,D染色体组最低,A染色体组居中。利用185对SSR引物计算了云南、西藏和新疆小麦群体内及其群体间的遗传距离(GD)和平均遗传距离,结果显示,西藏小麦和云南小麦群体内的平均遗传距离要高于新疆小麦,而云南小麦和西藏小麦间的平均遗传距离低于两者与新疆小麦的平均遗传距离。聚类分析结果也表明,云南小麦和西藏小麦的亲缘关系较近,但两者与新疆小麦的亲缘关系相对较远。     

急性低氧对高原土生动物藏系绵羊血气的影响

为了探讨急性低氧时藏系绵羊(Ovis aries)的血气特点,揭示其低氧适应机制,将7只雄性藏系绵羊和5只雄性移居绵羊分别置于高低压氧舱内,测定模拟海拔0、2 300和4 500 m时各动物清醒状态下的血气指标。用热稀释法测定心输出量。使用血气分析仪和EG7血样板,测定动脉及混合静脉血的血气指标,按Ficks方法计算氧耗量。结果显示,随着模拟海拔高度的升高,藏羊和移居羊的动静脉血氧饱和度(So2)、氧分压(Po2)、二氧化碳分压(Pco2)都呈明显下降趋势(P<0.05),血红蛋白浓度(Hb)、血液pH、心输出量及氧耗量虽无明显的差异性改变,但它们在4 500 m处的绝对值是增加的。在相同海拔,藏羊的Hb明显低于移居羊(P<0.05),4 500 m时藏羊的动脉血氧饱和度(Sao2)及组织摄氧量显著高于移居羊(P<0.05)。表明藏羊在急性低氧时表现出的高Sao2及高组织摄氧量,低Hb、低pH是它适应高原低氧的生理基础。     

The group size effect and synchronization of vigilance in the Tibetan wild ass

Vigilance behavior is considered as an effective strategy for prey species to detect predators.An individual benefits from living in a group by reducing the time spent being vigilant without affecting the probability of detecting a predator.However,the mechanism producing a decrease in vigilance with increasing group size is unclear.Many models of vigilance assume that group members scan independently of one another.Yet in recent studies,the other 2 patterns of vigilance,coordination and synchronization,were reported in some species.In 2 summers(2018 and 2019),we studied the group-size effect on vigilance and foraging of Tibetan wild ass in Chang Tang Nature Reserve of Tibet.We also tested whether individuals scan the environment independently,tend to coordinate their scans,or tend to synchronize their vigilance.The results showed that individuals decreased the time spent on vigilance with increasing group size,while increased the time spent foraging.Group members scanned the environment at the same time more frequently and there was a positive correlation between group members'behaviors,indicating that Tibetan wild asses tend to synchronize their vigilance.