The detection and attribution of extreme reductions in vegetation growth across the global land surface

Negative extreme anomalies in vegetation growth (NEGs) usually indicate severely impaired ecosystem services. These NEGs can result from diverse natural and anthropogenic causes, especially climate extremes (CEs). However, the relationship between NEGs and many types of CEs remains largely unknown at regional and global scales. Here, with satellite-derived vegetation index data and supporting tree-ring chronologies, we identify periods of NEGs from 1981 to 2015 across the global land surface. We find 70% of these NEGs are attributable to five types of CEs and their combinations, with compound CEs generally more detrimental than individual ones. More importantly, we find that dominant CEs for NEGs vary by biome and region. Specifically, cold and/or wet extremes dominate NEGs in temperate mountains and high latitudes, whereas soil drought and related compound extremes are primarily responsible for NEGs in wet tropical, arid and semi-arid regions. Key characteristics (e.g., the frequency, intensity and duration of CEs, and the vulnerability of vegetation) that determine the dominance of CEs are also region- and biome-dependent. For example, in the wet tropics, dominant individual CEs have both higher intensity and longer duration than non-dominant ones. However, in the dry tropics and some temperate regions, a longer CE duration is more important than higher intensity. Our work provides the first global accounting of the attribution of NEGs to diverse climatic extremes. Our analysis has important implications for developing climate-specific disaster prevention and mitigation plans among different regions of the globe in a changing climate.     

Long-term changes in Noctiluca scintillans blooms along the Chinese coast from 1933 to 2020

Noctiluca scintillans is one of the most common harmful algal species and widely known due to its bioluminescence. In this study, the spatial distribution, seasonal variations, and long-term trends of N. scintillans blooms in China and the related drivers were analyzed and discussed. From 1933 to 2020, a total of 265 events of N. scintillans blooms were recorded in Chinese coastal waters, with a total duration of 1052 days. The first N. scintillans bloom occurred in Zhejiang in 1933, and only three events were recorded before 1980. From 1981 to 2020, N. scintillans caused harmful algal blooms (HABs) almost every year, both the average duration and the proportion of multiphase HABs showed an increasing trend. 1986–1992, 2002–2004, and 2009–2016 were the three peak periods with a frequency of no less than five events of N. scintillans blooms per year. In terms of spatial distribution, N. scintillans blooms spread from the Southeast China Sea to the Bohai Sea after 2000, Guangdong, Fujian, and Hebei were the three provinces with the highest numbers of recorded events of N. scintillans blooms. Moreover, 86.8% of the events of N. scintillans blooms occurred in spring (March, April, and May) and summer (June, July, and August). Among environmental factors, the dissolved inorganic phosphate, dissolved silicate and chemical oxygen demand were significantly correlated with the cell density of N. scintillans during N. scintillans blooms, and most of N. scintillans blooms were recorded in the temperature range of 18.0–25.0°C. Precipitation, hydrodynamics, water temperature, and food availability might be the main factors affecting the spatial–temporal distribution of N. scintillans blooms along the Chinese coast.     

Accelerated organic matter decomposition in thermokarst lakes upon carbon and phosphorus inputs

Mineralization of dissolved organic matter (DOM) in thermokarst lakes plays a non-negligible role in the permafrost carbon (C) cycle, but remains poorly understood due to its complex interactions with external C and nutrient inputs (i.e., aquatic priming and nutrient effects). Based on large-scale lake sampling and laboratory incubations, in combination with ¹³C-stable-isotope labeling, optical spectroscopy, and high-throughput sequencing, we examined large-scale patterns and dominant drivers of priming and nutrient effects of DOM biodegradation across 30 thermokarst lakes along a 1100-km transect on the Tibetan Plateau. We observed that labile C and phosphorus (P) rather than nitrogen (N) inputs stimulated DOM biodegradation, with the priming and P effects being 172% and 451% over unamended control, respectively. We also detected significant interactive effects of labile C and nutrient supply on DOM biodegradation, with the combined labile C and nutrient additions inducing stronger microbial mineralization than C or nutrient treatment alone, illustrating that microbial activity in alpine thermokarst lakes is co-limited by both C and nutrients. We further found that the aquatic priming was mainly driven by DOM quality, with the priming intensity increasing with DOM recalcitrance, reflecting the limitation of external C as energy sources for microbial activity. Greater priming intensity was also associated with higher community-level ribosomal RNA gene operon (rrn) copy number and bacterial diversity as well as increased background soluble reactive P concentration. In contrast, the P effect decreased with DOM recalcitrance as well as with background soluble reactive P and ammonium concentrations, revealing the declining importance of P availability in mediating DOM biodegradation with enhanced C limitation but reduced nutrient limitation. Overall, the stimulation of external C and P inputs on DOM biodegradation in thermokarst lakes would amplify C-climate feedback in this alpine permafrost region.     

Extinction risk of Chinese angiosperms varies between woody and herbaceous species

Aim

Understanding how species' traits and environmental contexts relate to extinction risk is a critical priority for ecology and conservation biology. This study aims to identify and explore factors related to extinction risk between herbaceous and woody angiosperms to facilitate more effective conservation and management strategies and understand the interactions between environmental threats and species' traits.

Location

China.

Taxon

Angiosperms.

Methods

We obtained a large dataset including five traits, six extrinsic variables, and 796,118 occurrence records for 14,888 Chinese angiosperms. We assessed the phylogenetic signal and used phylogenetic generalized least squares regressions to explore relationships between extinction risk, plant traits, and extrinsic variables in woody and herbaceous angiosperms. We also used phylogenetic path analysis to evaluate causal relationships among traits, climate variables, and extinction risk of different growth forms.

Results

The phylogenetic signal of extinction risk differed among woody and herbaceous species. Angiosperm extinction risk was mainly affected by growth form, altitude, mean annual temperature, normalized difference vegetation index, and precipitation change from 1901 to 2020. Woody species' extinction risk was strongly affected by height and precipitation, whereas extinction risk for herbaceous species was mainly affected by mean annual temperature rather than plant traits.

Main conclusions

Woody species were more likely to have higher extinction risks than herbaceous species under climate change and extinction threat levels varied with both plant traits and extrinsic variables. The relationships we uncovered may help identify and protect threatened plant species and the ecosystems that rely on them.     

中国优质水果资源的分布与适宜生态环境

根据农业部在80年代两次组织评选出的全国189个优质水果产地的生态环境资料,用微型电子计算机系统建立数据库,统计分析柑桔、苹果和梨优质产品的构成比例、产区分布地域及其适宜的环境指标和主栽品种的生态适应性,为果树良种区域化栽培与选育提供依据。     

我国大麦和性花叶病毒（BaMMV）研究初报

本文根据F(ab′)2－ELISA和ISEM实验,结合病毒粒子长度测定,报道了江苏省如东县农科所大麦黄花病毒源（吕种盐辐矮早3）中除存在大麦花花叶病毒（BaYMV）外,还复合感染大麦和性花叶病毒（BaMMV）,这是我国BaMMV的第一次报道。     

人巨细胞病毒的生物素DNA探针的制备和应用

本研究用克隆的HCMV AD169株DNA片段,制备了生物素标记的DNA探针,建立了检测临床脐带血、尿标本中HCMV DNA的核酸探针杂交方法。该探针可测出100pg同源DNA,不与人胚肺细胞、Hep-2细胞DNA以及其他疱疹病毒的DNA发生反应。用核酸杂交方法检测了30份脐带血标本,有11例阳性,阳性率为33％。10例孕妇尿标本中,3例阳性,阳性率为30％。检测结果表明：我们建立的生物素标记的HCMV DNA探针的点杂交法,具有高度的特异性、敏感性,比分离病毒法更迅速,可用于HCMV感染的临床标本的病毒核酸检测。     

人胎儿肝内甲胎蛋白的成份及其对T.B淋巴细胞发育的影响

本文用免疫组织化学方法,分别在冰冻和石蜡切片上,对24例不同胎龄的胎儿肝比较研究了肝内 AFP~+细胞数量及其与 T,B 淋巴细胞之间的关系。结果发现 AFP 仅分布于肝细胞内,其他细胞阴性。不同胎龄的肝脏,AFP 的染色强度和阳性率不同。17周前的胎肝,AFP~+细胞最多以后逐渐减少。出生前的肝脏内只有少数 AFP~+细胞。AFP~+细胞的多少与 B 细胞分化发育无多大关系,但与 T 细胞似乎关系密切,两者呈负相关,即 AFP~+细胞多时,T 细胞很少,AFP~+减少时,T 细胞增加,提示 AFP 对 T 细胞具有抑制作用。同时也证明 B 细胞在胎肝内受 T 细胞的影响不大,主要依赖于肝脏的微环境。另外对 AFP 的生物学意义也进行了讨论。     

21科41种(变种)植物叶片几丁质酶系的研究

对广州地区常见的21科41种（变种）植物叶片几丁质酶系研究的结果表明,所有受试植物都具有几丁质酶活性。几丁质酶不仅存在于被子植物的双子叶植物和单子叶植物中,而且也存在于裸子植物及蕨类植物中。几丁质酶活性及比活性均较高的有蕹菜、葱、蕨类植物、蒜、茄科植物、玉米、菜豆、番木瓜等。植物一般都具有两种几丁质酶:外切酶和内切酶。几丁质外切酶活性及比活性均较高的有蕨类植物、葱、茄科植物等。几丁质内切酶活性及比活性均较高的有蕹菜、裸子植物等。不同植物几丁质外切酶与内切酶的比例相差较大。有些植物的几丁质酶系以外切酶为主,如茄科植物、大部分豆科植物、番木瓜等;有些植物以内切酶为主,如裸子植物、伞形科植物、蕹菜等;有些植物的外切酶与内切酶含量相差不大。     

低温对氯化钠胁迫下蓝藻固氮活性的影响

低温加剧氯化钠对蓝藻固氮的抑制,营养液中氯化钠浓度增高时,抑制程度更甚.能源受限(暗处理和加抑制剂时的光合受抑,N_2和Ar的厌氧下呼吸代谢受阻)和氧下固氮酶受到伤害时,低温处理使氯化钠对蓝藻固氮的抑制进一步加剧.在能源和还原剂供应,合成固氨酶蛋白的物质基础(如CO_2和N_2的加合).光合作用正常进行的条件得到改善和保证,以及供应CO_2、外源蔗糖和氮氧加合时,低温加剧氯化钠对蓝藻固氮的抑制程度明显变小.