A chromosome‐level genome assembly reveals the genetic basis of cold tolerance in a notorious rice insect pest,Chilo suppressalis

The rice stem borer, Chilo suppressalis, is one of the most damaging insect pests to rice production worldwide. Although C. suppressalis has been the focus of numerous studies examining cold tolerance and diapause, plant–insect interactions, pesticide targets and resistance, and the development of RNAi‐mediated pest management, the absence of a high‐quality genome has limited deeper insights. To address this limitation, we generated a draft C. suppressalis genome constructed from both Illumina and PacBio sequences. The assembled genome size was 824.35 Mb with a contig N₅₀ of 307 kb and a scaffold N₅₀ of 1.75 Mb. Hi‐C scaffolding assigned 99.2% of the bases to one of 29 chromosomes. Based on universal single‐copy orthologues (BUSCO), the draft genome assembly was estimated to be 97% complete and is predicted to encompass 15,653 protein‐coding genes. Cold tolerance is an extreme survival strategy found in animals. However, little is known regarding the genetic basis of the winter ecology of C. suppressalis. Here, we focused our orthologous analysis on those gene families associated with animal cold tolerance. Our finding provided the first genomic evidence revealing specific cold‐tolerant strategies in C. suppressalis, including those involved in glucose‐originated glycerol biosynthesis, triacylglycerol‐originated glycerol biosynthesis, fatty acid synthesis and trehalose transport‐intermediate cold tolerance. The high‐quality C. suppressalis genome provides a valuable resource for research into a broad range of areas in molecular ecology, and subsequently benefits developing modern pest control strategies.     

Cold and hungry: combined effects of low temperature and resource scarcity on an edge-of-range temperate primate,the golden snub-nose monkey

Both biotic and abiotic factors play important roles in influencing ecological distributions and niche limits. Where biotic and abiotic stressors co-occur in space and time, homeostatic systems face a scenario in which stressors can compound to impose a challenge that is greater than the sum of the separate factors. We studied the homeostatic strategies of the golden snub-nosed monkey Rhinopithecus roxellana, a species living in temperate deciduous forests at the edge of the global distribution range for folivorous primates, to cope with the co-occurrence of cold temperatures and resource scarcity during winter. We discovered that in winter the monkeys experience a dietary energy deficit of 101 kJ mbm⁻¹ d⁻¹ compared with calculated needs, despite increased feeding. This is partly offset by behavioral changes (reduced locomotion and increased resting) and reducing skin temperature by an average of 3.2°C through a cutaneous vasoconstriction to decrease heat loss. However, their major strategy is ingesting surplus energy and accumulating fat reserves when food was not limiting during summer and autumn. Their 14% of body mass lost over the winter represented an energy yield of 102 kJ mbm⁻¹ d⁻¹, which closely matched the calculated winter energy deficit of 101 kJ mbm⁻¹ d⁻¹. However, the latter value assumes that all the 75.41 kJ mbm⁻¹ d⁻¹ of protein ingested in winter was available for energy metabolism. This is almost certainly an over-estimate, suggesting that the study population was in negative energy balance over the study period. Our study therefore suggests that despite its suit of integrated homeostatic responses, the confluence of low temperatures and resource limitation during winter places this edge-of-range primate close the threshold of what is energetically viable. It also provides a framework for quantitative models predicting the vulnerability of temperate primates to global change.     

蝴蝶兰PhNAC1基因序列分析及对低温胁迫的响应

为探讨NAC转录因子在蝴蝶兰低温胁迫响应中的分子调控机理,该研究以蝴蝶兰的叶片为材料,运用RT-PCR及RACE技术克隆得到一条蝴蝶兰的NAC转录因子基因完整的cDNA序列,命名为PhNAC1(GenBank登录号MF797909),并分析了其在两种低温条件下的表达模式。结果表明:PhNAC1基因cDNA序列全长1 442 bp,ORF全长942 bp,编码313个氨基酸。预测其蛋白分子量为35.22 kDa,等电点为6.95,属于稳定亲水性蛋白。二级结构预测表明,无规则卷曲和延伸链为该蛋白的主要结构元件,与三级结构预测结果基本相符。PhNAC1编码的氨基酸序列与其他已登录的兰科植物NAC蛋白进行同源序列比对,表明与小兰屿蝴蝶兰(XP_0205763790)亲缘关系较近,序列一致性达97%,其次为铁皮石斛(XP_020695081),一致性为84%。实时荧光定量PCR分析表明,PhNAC1基因在营养器官和生殖器官中均有表达,在蕊柱中的表达量最高。在11℃/6℃低温条件下,PhNAC1基因的转录表达水平在前5天随着处理时间逐渐升高,到第7天开始下降;在4℃低温条件下,PhNAC1基因的表达水平在处理0.5 h时表达量有所下降,1 h后表达量上升至对照水平,之后无明显变化,在处理24至48 h又逐渐升高,推测PhNAC1基因参与蝴蝶兰低温胁迫响应。     

纳米二氧化硅复合寒冷对A549细胞毒性及其炎性因子分泌的影响*

目的: 本研究旨在探讨纳米二氧化硅(Nano-SiO₂)颗粒和寒冷复合对人肺腺癌上皮细胞A549细胞毒性及炎性因子分泌的影响。方法: 本研究以A549细胞为实验对象,分别用10, 50, 100, 200 μg/ml Nano-SiO₂颗粒对A549细胞染毒,以及分别在35℃,33℃,31℃条件下对A549细胞进行低温暴露,培养48 h后,观察细胞形态及测定细胞相对存活率。根据单因素分析结果,选出对A549细胞相对存活率有显著降低作用的Nano-SiO₂剂量和温度的基础上,按照2×2析因设计实验,分为4组:①37℃对照组;②Nano-SiO₂染毒组;③低温暴露组;④Nano-SiO₂和低温复合组,不同条件下暴露48 h后,收集细胞上清液采用比色法检测LDH活性,以及ELISA法测定细胞因子白介素-6(IL-6)和白介素-8(IL-8)的水平,采用qRT-PCR法检测细胞IL-6和IL-8的基因表达水平。结果: 100 μg/ml Nano-SiO₂组和31℃低温组能够显著降低A549细胞活性(P＜0.01),在复合条件作用下对A549细胞活性抑制最为显著,且炎性因子IL-6和IL-8及mRNA的表达水平均显著升高(P＜0.01)。结论: 100 μg/ml Nano-SiO₂与31℃低温复合暴露可协同降低A549细胞的相对存活率,增加炎性因子IL-6和IL-8表达水平。     

林下植被和凋落物对寒温带森林生长季土壤CH4通量的影响

为进一步探究林下植被和凋落物管理对我国寒温带森林生长季土壤CH₄通量的影响,采用静态箱-气相色谱法对大兴安岭北部4种林型（白桦林、山杨林、樟子松林和兴安落叶松林）4种处理（自然状态、去除凋落物、去除林下植被以及去除林下植被和凋落物）的土壤CH₄通量排放特征进行观测研究。结果表明：该地区森林生长季土壤均表现为CH₄的汇,4种林型不同处理后土壤CH₄通量表现为单峰变化趋势,吸收峰值出现在7月或8月。自然状态4种林型土壤CH₄平均吸收通量表现为白桦林（-79.23±14.92）μg m^-2 h^-1>山杨林（-64.27±9.60）μg m^-2 h^-1>樟子松林（-62.54±15.48）μg m^-2 h^-1>兴安落叶松林（-48.73±12.26）μg m^-2 h^-1,兴安落叶松土壤CH₄平均吸收通量显著小于其他三种林型（P<0.05）。相比于自然状态,4种林型在去除凋落物后土壤CH₄吸收通量提高了2.12%-12.15%,但变化幅度均没有达到显著水平（P>0.05）。去除林下植被后4种林型CH₄吸收通量提高了0.84%-20.55%,且只有山杨林吸收增加达到显著水平（P<0.05）。同时去除林下植被和凋落物后,对白桦林和樟子松土壤CH₄通量影响不显著（P>0.05）,但对山杨林和兴安落叶松林影响显著（P<0.05）。总之,去除凋落物或林下植被均会提高土壤对CH₄吸收,去除林下植被对土壤CH₄通量的影响要大于去除凋落物的影响,但不同林型不同处理之间还存在差异。     

区域气候背景对城市热岛效应的影响规律

城市热岛效应受到区域气候背景的影响而具有显著的时空差异性,尚缺少大尺度对比研究。利用1991-2019年的月均气象数据,量化了我国69个典型城市的大气城市热岛效应强度,从热带、干带、暖温带、冷温带和极地带五个气候带,分析城市热岛效应的时空特征规律。结果表明：（1）区域差异：干带热岛效应明显高于其他气候带,极地带最弱,且表现为较强的冷岛效应,热带、暖温带、冷温带热岛效应较弱,而冷温带的京津冀地区由于城市化程度较高,表现出较强的热岛效应,温暖带中西南地区较为明显;（2）季节性差异：不同季节城市热岛效应的强弱关系在不同气候带有所不同,秋季热岛效应较为稳定,热岛和冷岛效应均主要处于弱强度范围,春、冬热岛效应较为波动,易出现强热岛、强冷岛效应的极端现象,夏季热岛效应发生率最高;（3）时间演变规律：城市热岛效应的多年演变规律在相同气候带较为一致,2010年前后是各气候带各季节城市热岛效应的变化拐点,2010年后,干带、冷温带、暖温带热岛效应均有所下降,热带、极地带有所上升。     

Protein kinases in plant responses to drought,salt, and cold stress

Protein kinases are major players in various signal transduction pathways. Understanding the molecular mechanisms behind plant responses to biotic and abiotic stresses has become critical for developing and breeding climate-resilient crops. In this review,we summarize recent progress on understanding plant drought, salt, and cold stress responses, with a focus on signal perception and transduction by different protein kinases, especially sucrose nonfermenting1(SNF1)-related protein kinases(Sn RKs),mitogen-activated protein kinase(MAPK) cascades,calcium-dependent protein kinases(CDPKs/CPKs),and receptor-like kinases(RLKs). We also discuss future challenges in these research fields.     

低温胁迫下红松与西伯利亚红松光合与气孔特性

红松与西伯利亚红松均为寒温带著名的成林树种,具有较强的耐寒性,与红松相比,西伯利亚红松具有更强的耐寒性。为探究低温胁迫下两树种的生理响应机制及抗寒生理机理,本研究以5年生的红松与西伯利亚红松幼苗为材料,对其进行低温处理,3个胁迫温度(0℃、-20℃和-40℃)和3个胁迫时间(6、24和48 h),20℃为对照,研究低温胁迫下红松与西伯利亚红松的光合特性和气孔特性。T检验和方差分析结果表明,各光合指标和气孔密度在红松与西伯利亚红松中的差异显著(P<0.05),低温及低温胁迫时间对红松与西伯利亚红松各光合指标具有极显著影响(P<0.01),低温对红松与西伯利亚红松的气孔开度与气孔面积具有极显著影响(P<0.01)。胁迫前(20℃)和0℃低温胁迫下,红松中的净光合速率、气孔导度和蒸腾速率均显著高于西伯利亚红松,但在-20℃条件下胁迫6 h,西伯利亚红松各光合测定指标显著高于红松。随着温度的降低与胁迫时间的延长,两树种的各光合指标均呈下降趋势。红松中的气孔密度显著高于西伯利亚红松,胁迫前(20℃),红松与西伯利亚红松的气孔均为椭圆形,随着温度的降低,两树种的气孔开度和气孔面积显著减小。