Flight metabolism in the African fruit beetle,Pachnoda sinuata

Metabolite concentrations in flight muscles and in abdomen of beetles (Pachnoda sinuata) were measured after various periods of tethered flight and subsequent rest. Three distinct phases of energy metabolism are found in active flight muscles: (1) during the first minutes of flight proline is used as main substrate and concomitantly alanine accumulated as an end product; (2) the second phase is characterized by a large-scale degradation of glycogen; (3) after about 8 min of flight the metabolite levels stabilize, while flight performance appears unchanged. After the termination of flight the preflight proline concentration (70 mol·g^-1 fw) is re-established in less than 60 min, whereas restoration of resting levels of other metabolites requires longer. The pattern of maximal enzyme activities and the respiratory rates of mitochondria with different substrates confirm the significance of proline and carbohydrates as the main fuels of working flight muscles.Abbreviations CS citrate synthetase - Cytox cytochrome c oxidase - EDTA ethylenediaminetetra-acetate - fw fresh weight - GluDH glutamate dehydrogenase - GPT alanine aminotransferase - HOAD hydroxyacyl-coenzyme A dehydrogenase - HPLC high pressure liquid chromatography - ME malic enzyme - PCA perchloric acid - RQ repiratory quotient - TRA triethanolamine     

Carbon uptake in Eurasian boreal forests dominates the high-latitude net ecosystem carbon budget

Arctic-boreal landscapes are experiencing profound warming, along with changes in ecosystem moisture status and disturbance from fire. This region is of global importance in terms of carbon feedbacks to climate, yet the sign (sink or source) and magnitude of the Arctic-boreal carbon budget within recent years remains highly uncertain. Here, we provide new estimates of recent (2003–2015) vegetation gross primary productivity (GPP), ecosystem respiration (R_eco), net ecosystem CO₂ exchange (NEE; R_eco − GPP), and terrestrial methane (CH₄) emissions for the Arctic-boreal zone using a satellite data-driven process-model for northern ecosystems (TCFM-Arctic), calibrated and evaluated using measurements from >60 tower eddy covariance (EC) sites. We used TCFM-Arctic to obtain daily 1-km² flux estimates and annual carbon budgets for the pan-Arctic-boreal region. Across the domain, the model indicated an overall average NEE sink of −850 Tg CO₂-C year⁻¹. Eurasian boreal zones, especially those in Siberia, contributed to a majority of the net sink. In contrast, the tundra biome was relatively carbon neutral (ranging from small sink to source). Regional CH₄ emissions from tundra and boreal wetlands (not accounting for aquatic CH₄) were estimated at 35 Tg CH₄-C year⁻¹. Accounting for additional emissions from open water aquatic bodies and from fire, using available estimates from the literature, reduced the total regional NEE sink by 21% and shifted many far northern tundra landscapes, and some boreal forests, to a net carbon source. This assessment, based on in situ observations and models, improves our understanding of the high-latitude carbon status and also indicates a continued need for integrated site-to-regional assessments to monitor the vulnerability of these ecosystems to climate change.     

Hyposensitive canopy conductance renders ecosystems vulnerable to meteorological droughts

Increased meteorological drought intensity with rising atmospheric demand for water (hereafter vapor pressure deficit [VPD]) increases the risk of tree mortality and ecosystem dysfunction worldwide. Ecosystem-scale water-use strategy is increasingly recognized as a key factor in regulating drought-related ecosystem responses. However, the link between water-use strategy and ecosystem vulnerability to meteorological droughts is poorly established. Using the global flux observations, historic hydroclimatic data, remote-sensing products, and plant functional-trait archive, we identified potentially vulnerable ecosystems, examining how ecosystem water-use strategy, quantified by the percentage bias (δ) of the empirical canopy conductance sensitivity to VPD relative to the theoretical value, mediated ecosystem responses to droughts. We found that prevailing soil water availability substantially impacted δ in dryland regions where ecosystems with insufficient soil moisture usually showed conservative water-use strategy, while ecosystems in humid regions exhibited more pronounced climatic adaptability. Hyposensitive and hypersensitive ecosystems, classified based on δ falling below or above the theoretical sensitivity, respectively, achieved similar net ecosystem productivity during droughts, employing different structural and functional strategies. However, hyposensitive ecosystems, risking their hydraulic system with a permissive water-use strategy, were unable to recover from droughts as quickly as hypersensitive ones. Our findings highlight that processed-based models predicting current functions and future performance of vegetation should account for the greater vulnerability of hyposensitive ecosystems to intensifying atmospheric and soil droughts.     

Damage to living trees contributes to almost half of the biomass losses in tropical forests

Accurate estimates of forest biomass stocks and fluxes are needed to quantify global carbon budgets and assess the response of forests to climate change. However, most forest inventories consider tree mortality as the only aboveground biomass (AGB) loss without accounting for losses via damage to living trees: branchfall, trunk breakage, and wood decay. Here, we use ~151,000 annual records of tree survival and structural completeness to compare AGB loss via damage to living trees to total AGB loss (mortality + damage) in seven tropical forests widely distributed across environmental conditions. We find that 42% (3.62 Mg ha⁻¹ year⁻¹; 95% confidence interval [CI] 2.36–5.25) of total AGB loss (8.72 Mg ha⁻¹ year⁻¹; CI 5.57–12.86) is due to damage to living trees. Total AGB loss was highly variable among forests, but these differences were mainly caused by site variability in damage-related AGB losses rather than by mortality-related AGB losses. We show that conventional forest inventories overestimate stand-level AGB stocks by 4% (1%–17% range across forests) because assume structurally complete trees, underestimate total AGB loss by 29% (6%–57% range across forests) due to overlooked damage-related AGB losses, and overestimate AGB loss via mortality by 22% (7%–80% range across forests) because of the assumption that trees are undamaged before dying. Our results indicate that forest carbon fluxes are higher than previously thought. Damage on living trees is an underappreciated component of the forest carbon cycle that is likely to become even more important as the frequency and severity of forest disturbances increase.     

一夫一妻西黑冠长臂猿的群体活动及其影响因素

高海拔栖息地中灵长类动物的行为适应一直以来都是灵长类研究中的重点内容,同物种在不同栖息地的行为差异也成为近年的热点问题。西黑冠长臂猿(Nomascus concolor)是我国国家一级重点保护野生动物,也是我国长臂猿科动物中种群数量最大的物种,滇中哀牢山、无量山是该物种的集中分布区。哀牢山和无量山的西黑冠长臂猿栖息地存在显著差异,且其社会组织不同。本研究首次报道了在哀牢山高海拔栖息地中一个一夫一妻长臂猿群体的活动时间分配和食性季节性变化。2014—2015年,采用3 min间隔瞬时扫描法记录了长臂猿的行为和食性,468 h的行为数据结果表明,移动行为比例最高38.1%,其次是休息行为36.4%,取食行为23.3%,最少为鸣叫行为1.9%和其他行为1.3%。3 784次取食行为可辨识食物类型,总体上叶类食物占41.1%,其次是果实类食物33.3%,花类食物21.0%,附生植物3.9%,其他食物0.6%。长臂猿的时间分配和食性在雨季和旱季均具有显著差异,在低温旱季,长臂猿增加休息时间,减少移动时间,提高叶类和花类食物的取食比例;在高温雨季,长臂猿增加移动时间,减少休息时间和取食时间,取食更...     

The role of non-natural foods in the nutritional strategies of monkeys in a human-modified mosaic landscape

Many tropical animals inhabit mosaic landscapes including human-modified habitat. In such landscapes, animals commonly adjust feeding behavior, and may incorporate non-natural foods. These behavioral shifts can influence consumers' nutritional states, with implications for population persistence. However, few studies have addressed the nutritional role of non-natural food. We examined nutritional ecology of wild blue monkeys to understand how dietary habits related to non-natural foods might support population persistence in a mosaic landscape. We documented prevalence and nutritional composition of non-natural foods in monkey diets to assess how habitat use influenced their consumption, and their contribution to nutritional strategies. While most energy and macronutrients came from natural foods, subjects focused non-natural feeding activity on five exotic plants, and averaged about a third of daily calories from non-natural foods. Most non-natural food calories came from non-structural carbohydrates and least from protein. Consumption of non-natural foods related to time in human-modified habitats, which two groups used non-randomly. Non-natural and natural foods were similar in nutrients, and the amount of non-natural food consumed drove variation in nutritional strategy. When more daily calories came from non-natural foods, females consumed a higher ratio of non-protein energy to protein (NPE:P). Females also prioritized protein while allowing NPE:P to vary, increasing NPE while capitalizing on non-natural foods. Overall, these tropical mammals achieved a similar nutrient balance regardless of their intake of non-natural foods. Forest and forest-adjacent areas with non-natural vegetation may provide adequate nutrient access for consumers, and thus contribute to wildlife conservation in mosaic tropical landscapes.     

笼养蓝马鸡取食高度偏好

笼养鸟类取食高度对其自然行为表达和动物福利至关重要。然而,相关研究却少见报道。本文以我国二级重点保护野生动物——蓝马鸡(Crossoptilon auritum)为研究对象,观察笼养状态下其对不同高度取食槽内放置的种子或蔬菜的取食次序,并使用回归分析建立取食高度与偏好值的数学模型。结果发现,笼养蓝马鸡取食种子类食物(玉米粒)最佳取食高度为0cm,并且采食偏好随采食槽高度升高而下降(y=-0.564x+43.146,R²=0.946,y为采食偏好值,x为采食槽高度);油麦菜(Lactuca sativa)的最适取食高度范围为15～25 cm,随着取食槽高度的升高,偏好值先上升,至25 cm处后下降(y=-0.014x2+0.543x+26.487,R²=0.952,y为采食偏好值,x为采食槽高度)。当取食槽高度在65 cm及以上时,蓝马鸡拒食率上升(拒食率≥38.9%)。成年蓝马鸡体高对取食高度影响不明显。研究结果可为笼养蓝马鸡饲养管理提供参考。     

海水酸化及升温对刺参生长及能量收支的影响

以东亚浅海生态系统中的关键种——刺参(Apostichopus japonicus)为实验对象,研究了CO₂驱动的海水酸化及升温对其生长及能量收支的影响。实验设置对照组(大连近海水温, pCO₂ 400μatm)、升温组(大连近海水温+3℃, pCO₂ 400μatm)、酸化组(大连近海水温, pCO₂ 1100μatm)和酸化升温组(大连近海水温+3℃,pCO₂ 1100μatm)。结果表明:与对照组相比,温度升高3℃对刺参的生长无显著影响;酸化组刺参的特定生长率最低,较对照组降低0.19%/d,个体体重的变异系数最大;酸化升温组刺参的终末体重和特定生长率与对照组相较无显著差异,但其摄食率和排粪率均显著高于对照组。升温组和酸化组的刺参能量的分配模式与对照组相比未发生明显改变,但酸化升温组刺参的能量分配模式发生显著变化,其粪便能所占摄食能的比例显著升高。研究表明,海水酸化抑制了刺参的生长但未改变其能量的分配,生长的降低主要取决于摄食减少;而海水酸化与温度升高的共同作用可能会通过...     

靶向蛋白质泛素修饰及降解在前列腺癌治疗中的机遇与挑战

前列腺癌是中国发病率增长最快的男性肿瘤,抗雄激素治疗耐药是导致前列腺癌患者预后差的主要原因。因此,解决耐药性难题是前列腺癌转化研究的关键问题。哺乳动物细胞利用泛素-蛋白酶体系统实现蛋白质的靶向降解。因此,前列腺癌中关键的癌基因如雄激素受体（AR）的上游泛素化调控因子（如去泛素化酶）是潜在的治疗靶点。然而,这些酶具有较广的底物谱系,存在脱靶的可能性。近来,基于泛素-蛋白酶体系统开发的蛋白质降解靶向嵌合体（proteolysis-targeting chimeras,PROTAC）技术是最具前景和革命性的新型抗癌药物研发技术,能够利用特定E3泛素连接酶对靶蛋白进行降解而不影响其他底物。与传统小分子抑制剂相比,PROTAC分子在克服耐药性以及针对不可成药的靶点方面拥有巨大优势。目前,针对AR的PROTAC降解剂已在II期临床取得了成功,靶向蛋白质泛素化及降解途径的新技术将有望为前列腺癌的临床治疗带来新的突破。     

冷刀系统与宫腔镜下能量系统分别联合芬吗通治疗中重度宫腔粘连疗效对比

摘要 目的：对比分析冷刀系统与宫腔镜下能量系统分别联合芬吗通治疗中重度宫腔粘连疗效。方法：选取2020年1月-2022年1月我院收治的中重度宫腔粘连患者80例为研究对象,分为对照组（n=40）和观察组（n=40）。对照组采用宫腔镜下能量系统联合芬吗通治疗,观察组采用冷刀系统联合芬吗通治疗。对比两组临床指标、临床疗效、月经恢复情况、并发症发生情况。结果：观察组手术时间、术中出血量、手术次数、术后出血量均短/少于对照组（P<0.05）。术后12个月观察组临床疗效（90.00%）显著高于对照组（65.00%）（P<0.05）。术后8~14个月两组的月经恢复情况均改善,观察组月经恢复情况较对照组更优（P<0.05）。观察组术后感染、子宫腺肌病、子宫穿孔、水中毒等并发症的总发生率（7.50%）低于对照组（47.50%）（P<0.05）。结论：冷刀系统联合芬吗通治疗宫腔粘连具有显著疗效,不仅对患者的危害更小,还有利于月经恢复,减少并发症,改善预后。