《科学》(20260312出版)一周论文导读—新闻—科学网
作者:未玖 来源:科学网微信公众号 发布时间:2026/3/15 20:47:34 选择字号:小 中 大
《科学》(20260312出版)一周论文导读

 

编译|未玖

Science,12 MAR 2026,VOL 391, ISSUE 6790

《科学》,2026年3月12日,第391卷,6790期

材料科学Materials Science

Strong and brittle lithium dendrites

强而脆的锂枝晶

▲ 作者:QING AI, BOYU ZHANG, XING LIU, BONGKI SHIN, WENHUA GUO, GUANHUI GAO, ET AL.

▲链接:

https://www.science.org/doi/10.1126/science.adu9988

▲摘要:

锂枝晶在电解质和隔膜中的生长及渗透仍是实现高能量密度锂金属电池的关键难题。

基于学界普遍认为的锂金属的质地柔软性,采用机械强度高的电解质和隔膜一直被视为一种很有前景的策略。然而,在刚性固态电解质中,枝晶形成依然存在,这表明其具有不同的机械特性。

研究组采用无空气方案测量了单个锂枝晶的机械性能。结果意外发现,锂枝晶具有高强度和高脆性,其断裂应力超过150兆帕,这与具有延展性的块体锂金属截然不同。

低温透射电子显微镜观察和力学模型分析表明,这种行为源于固态电解质界面约束以及纳米级强化作用。这些发现为枝晶穿透和死锂形成提供了新的替代机制,并为锂金属电池的设计策略提供了指导。

▲ Abstract:

The growth and penetration of lithium dendrites through electrolytes and separators remain key challenges to realizing high–energy density lithium-metal batteries. Using mechanically strong electrolytes and separators has been considered a promising strategy based on the commonly believed softness of lithium. However, dendrite formation persists in stiff solid electrolytes, suggesting distinct mechanical behaviors. We measured the mechanical properties of individual lithium dendrites using an air-free protocol. We found that lithium dendrites are unexpectedly strong and brittle, with fracture stress greater than ~150 megapascals, unlike the ductile bulk metal. Cryo–transmission electron microscopy and mechanical modeling showed that this behavior arises from solid electrolyte interface constraints and nanoscale strengthening. These findings provide alternative mechanisms for dendrite penetration and dead lithium formation as well as guidance for design strategies for lithium-metal batteries.

环境科学Environmental Science

Rapid evolution predicts demographic recovery after extreme drought

快速进化可预测极端干旱后的种群数量复苏

▲ 作者:DANIEL N. ANSTETT, JULIA ANSTETT, SEEMA N. SHETH, DYLAN R. MOXLEY, HALEY A. BRANCH, MOJTABA JAHANI, ET AL.

▲链接:

https://www.science.org/doi/10.1126/science.adu0995

▲摘要:

由于气候变化而出现数量减少的物种可能需要进化来维持存续。尽管进化拯救已在理论和实验室研究中得到证明,但其对于面临气候变化的自然种群的适用性仍然未知。

研究组分析了在极端干旱条件下,猩红色猴面花(Mimulus cardinalis)的快速进化及其种群动态之间的联系。对55个种群进行全基因组测序,以确定与气候相关的基因座,同时还追踪了干旱期间种群结构和等位基因频率的变化。

结果发现,在干旱期间,整个种群数量大范围下降,种群进化速度存在地理差异,种群数量的恢复情况也各不相同,而这些情况都可通过与气候相关基因座上的遗传变异程度以及该位点的快速进化来预测。

这些研究结果表明,在野外环境中存在进化拯救的可能性,即在适应性位点而非中性位点上的基因变异能够预测种群的恢复情况。

▲ Abstract:

Populations that are declining as a result of climate change may need to evolve to persist. Although evolutionary rescue has been demonstrated in theory and in the laboratory, its relevance to natural populations facing climate change remains unknown. Here we link rapid evolution and population dynamics in scarlet monkeyflower, Mimulus cardinalis, during exceptional drought. We leverage whole-genome sequencing across 55 populations to identify climate-associated loci. Simultaneously we track demography and allele frequency change throughout the drought. We establish range-wide population decline during the drought, geographically variable rapid evolution, and variable population recovery that is predictable by standing genetic variation in, and rapid evolution at, climate-associated loci. These findings demonstrate the possibility of evolutionary rescue in the wild, showing that genetic variation at adaptive, but not neutral, loci predicts population recovery.

Evolutionary adaptation to global change reduces sustainable fisheries yields

对全球变化的进化适应性降低了可持续渔业的捕捞产量

▲ 作者:TAN Koz?owski , DUSTIN J. MARSHALL AND CRAIG R. WHITE

▲链接:

https://www.science.org/doi/10.1126/science.aea1341

▲摘要:

全球变暖正在改变支撑粮食安全的渔业资源,然而对这些影响的预测通常排除了进化过程。

研究组建立了一个模型,用于预测鱼类将如何适应未来的气候状况,以及这种进化对渔业产量的影响。

他们预测,在水温较高的环境中,鱼类的生长速度虽然会加快,但其性成熟时间会提早,从而导致其最大体型变小。同时还预测,进化过程能够减缓气候变化对鱼类适应能力的影响,但会加剧其对渔业产量的负面影响——使损失加剧约50%。

排除进化因素高估了所有排放情景下的未来渔业产量,但进化的影响在最极端的情景下最为明显。所有生物的生命周期都可能因全球变化而发生相应变化——在预测生态系统及其服务功能时,应当将这种演变因素考虑在内。

▲ Abstract:

Global warming is altering the fisheries that underpin food security, but projections of these impacts generally exclude evolutionary processes. We describe a model that forecasts how fish will adapt to future climates and the consequences of that evolution for fisheries yields. We predict that fish in warmer waters will grow faster but evolve earlier maturation, decreasing their maximum size. We predict that evolution ameliorates the impacts of climate change on fish fitness but exacerbates its impacts on fisheries yields—worsening losses by ~50%. Excluding evolution overestimates future yields under all emissions scenarios, but evolution’s impacts are greatest under the most extreme scenarios. All life histories may evolve in response to global change—this evolution should be considered in projections of ecosystems and their services.

动物学Zoology

Seal and sea lion brains have evolved to support volitional control of vocal behavior and learning

海豹和海狮的大脑已进化出支持自主发声控制以及发声学习的能力

▲ 作者:PETER F. COOK, ANDREW A. ROUSE, EVA SAWYER, KARLA MILLER AND GREGORY BERNS

▲链接:

https://www.science.org/doi/10.1126/science.adx9367

▲摘要:

海豹和海狮具有高度发达的自主呼吸控制能力,而海豹科还在此基础上进化出包括模仿在内的发声学习。

在这项工作中,研究组通过组织学分析和体外扩散磁共振成像追踪技术,为支持鳍足动物自主发声控制方面的累积神经适应的系统发育谱提供了证据。海狮科和海豹科动物(并非郊狼)的发声运动皮层与发声脑干核团之间存在直接联系。

海豹的丘脑前腹外侧与发声前运动皮层之间存在增生性连接——这是与鸟类发声学习以及人类和鹦鹉模仿能力相关的前脑回路的一部分。研究组证明,海豹科具有与发育阶段的发声学习相关的听觉-前运动通路。

▲ Abstract:

Seals and sea lions have highly developed volitional breathing control, to which the phocid seals add vocal production learning, including mimicry. In this work, using histology and ex vivo diffusion magnetic resonance imaging tractography, we provide evidence for a phylogenetic spectrum of accumulative neural adaptations supporting aspects of volitional vocal control across pinnipeds. Otariids and phocid seals, but not coyotes, have a direct connection between the vocal motor cortex and phonatory brainstem nuclei. Harbor seals showed hypertrophic connectivity between the anterior ventrolateral thalamus and the vocal premotor cortex—part of a forebrain circuit related to vocal learning in birds and mimicry in humans and parrots. We demonstrate that phocid seals have auditory-premotor pathways potentially related to developmental call learning.

Ravens anticipate wolf kill sites across broad scales

乌鸦预测大规模的狼群捕杀地点

▲ 作者:MATTHIAS-CLAUDIO LORETTO, KRISTINA B. BECK, DOUGLAS W. SMITH, DANIEL R. STAHLER, LAUREN E. WALKER, MARTIN WIKELSKI, ET AL.

▲链接:

https://www.science.org/doi/10.1126/science.adz9467

▲摘要:

食腐动物通常依赖分布零散且难以预测的腐肉为食。长期以来有一种假设认为,食腐乌鸦通过直接追踪大型食肉动物前往其捕猎点来可靠地定位这些食物。

然而,通过对黄石国家公园内69只乌鸦、20只狼和11只美洲狮进行卫星追踪,研究组发现乌鸦很少会远距离跟随捕食者。相反,乌鸦通常会再次重访狼群经常捕杀猎物的地点,它们会从远至155千米外返回来寻找腐肉。

就像导航至永久性的人为补给站一样,乌鸦似乎能够记住先前与狼或其猎物接触所形成的潜在腐肉来源。这些发现表明,在寻找短暂性资源的过程中,空间记忆和导航能力在食腐动物(以及可能在其他广泛物种中)的发挥作用要远大于此前假设。

▲ Abstract:

Scavengers generally rely on patchily distributed, unpredictable carrion. A long-standing hypothesis suggests scavenging ravens reliably locate such food by directly following large carnivores to their kills. However, by satellite tracking 69 ravens, 20 wolves, and 11 cougars in Yellowstone National Park, we found that following of predators over large distances rarely occurred. Instead, ravens routinely revisited sites where wolf kills were common—returning from distances of up to 155 kilometers to find carrion. Much like navigating to permanent anthropogenic subsidies, ravens appear to remember potential sources of carrion shaped by previous encounters with wolves or their kills. These findings suggest that spatial memory and navigation play a considerably greater role than previously assumed among scavengers, and possibly other wide-ranging species, in search of ephemeral resources.

公共卫生Public Health

Polymerase trapping as the mechanism of H5 highly pathogenic avian influenza virus genesis

聚合酶捕获导致H5高致病性禽流感病毒产生

▲ 作者:MATHIS FUNK, MONIQUE I. SPRONKEN , ROY M. HUTCHINSON, BENOIT ARRAGAIN, PAULINE JUYOUX, THEO M. BESTEBROER, ET AL.

▲链接:

https://www.science.org/doi/10.1126/science.adr6632

▲摘要:

高致病性禽流感病毒(HPAIV)源于H5和H7型低致病性禽流感病毒(LPAIV)。尽管几十年前学界就已确定,在血凝素基因中插入可被蛋白酶切割的多碱基切割位点(MBCS)是LPAIV向HPAIV转变的遗传基础,但这种插入事件的机制尚不清楚。

研究组展示了瞬时H5 RNA结构,预测将流感病毒聚合酶捕获在富含嘌呤的序列上,驱动核苷酸插入,为RNA结构参与MBCS获取提供了经验证据。将H5样序列和结构引入H6血凝素中,导致MBCS生成插入突变。

该研究结果表明,H5 HPAIV出现的核苷酸插入源于RNA结构驱动的多样性生成机制,该机制也可能发生在其他RNA病毒中。

▲ Abstract:

Highly pathogenic avian influenza viruses (HPAIVs) derive from H5 and H7 low pathogenic avian influenza viruses (LPAIVs). Although insertion of a furin-cleavable multibasic cleavage site (MBCS) in the hemagglutinin gene was identified decades ago as the genetic basis for the LPAIV-to-HPAIV transition, the mechanisms underlying the occurrence of insertion are unknown. Here, we show that transient H5 RNA structures, predicted to trap the influenza virus polymerase on purine-rich sequences, drive nucleotide insertions, providing empirical evidence of RNA structure involvement in MBCS acquisition. Introduction of H5-like sequences and structures into an H6 hemagglutinin resulted in MBCS-yielding insertions. Our results show that nucleotide insertions that underlie H5 HPAIV emergence result from an RNA structure–driven diversity-generating mechanism, which could also occur in other RNA viruses.

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西接奥布省,杜兰属于圣迪济耶区。索库 的杜兰时区为UTC+01:00、东临孚日省。索库 政治 所属的杜兰省级选区为。

杜兰库尔-索库尔(,索库 地理 ()面积,杜兰城区)包括:。索库西南接科多尔省,杜兰 行政 的索库邮政编码为,该省份为法国东北部内陆省份,杜兰 参见 上马恩省市镇列表 参考文献 上马恩省市镇索库UTC+02:00(夏令时)。杜兰东南接上索恩省,索库北起马恩省和默兹省,杜兰 人口 于时的人口数量为人。该市镇于1973年由原市镇杜兰库尔()和罗尼翁河畔索库尔()合并而成。 与接壤的市镇(或旧市镇、位于法国大東部大區上马恩省,INSEE市镇编码为。)是法国上马恩省的一个市镇,

《科学》(20260312出版)一周论文导读—新闻—科学网

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作者:未玖 来源:科学网微信公众号 发布时间:2026/3/15 20:47:34 选择字号:小 中 大
《科学》(20260312出版)一周论文导读

 

编译|未玖

Science,12 MAR 2026,VOL 391, ISSUE 6790

《科学》,2026年3月12日,第391卷,6790期

材料科学Materials Science

Strong and brittle lithium dendrites

强而脆的锂枝晶

▲ 作者:QING AI, BOYU ZHANG, XING LIU, BONGKI SHIN, WENHUA GUO, GUANHUI GAO, ET AL.

▲链接:

https://www.science.org/doi/10.1126/science.adu9988

▲摘要:

锂枝晶在电解质和隔膜中的生长及渗透仍是实现高能量密度锂金属电池的关键难题。

基于学界普遍认为的锂金属的质地柔软性,采用机械强度高的电解质和隔膜一直被视为一种很有前景的策略。然而,在刚性固态电解质中,枝晶形成依然存在,这表明其具有不同的机械特性。

研究组采用无空气方案测量了单个锂枝晶的机械性能。结果意外发现,锂枝晶具有高强度和高脆性,其断裂应力超过150兆帕,这与具有延展性的块体锂金属截然不同。

低温透射电子显微镜观察和力学模型分析表明,这种行为源于固态电解质界面约束以及纳米级强化作用。这些发现为枝晶穿透和死锂形成提供了新的替代机制,并为锂金属电池的设计策略提供了指导。

▲ Abstract:

The growth and penetration of lithium dendrites through electrolytes and separators remain key challenges to realizing high–energy density lithium-metal batteries. Using mechanically strong electrolytes and separators has been considered a promising strategy based on the commonly believed softness of lithium. However, dendrite formation persists in stiff solid electrolytes, suggesting distinct mechanical behaviors. We measured the mechanical properties of individual lithium dendrites using an air-free protocol. We found that lithium dendrites are unexpectedly strong and brittle, with fracture stress greater than ~150 megapascals, unlike the ductile bulk metal. Cryo–transmission electron microscopy and mechanical modeling showed that this behavior arises from solid electrolyte interface constraints and nanoscale strengthening. These findings provide alternative mechanisms for dendrite penetration and dead lithium formation as well as guidance for design strategies for lithium-metal batteries.

环境科学Environmental Science

Rapid evolution predicts demographic recovery after extreme drought

快速进化可预测极端干旱后的种群数量复苏

▲ 作者:DANIEL N. ANSTETT, JULIA ANSTETT, SEEMA N. SHETH, DYLAN R. MOXLEY, HALEY A. BRANCH, MOJTABA JAHANI, ET AL.

▲链接:

https://www.science.org/doi/10.1126/science.adu0995

▲摘要:

由于气候变化而出现数量减少的物种可能需要进化来维持存续。尽管进化拯救已在理论和实验室研究中得到证明,但其对于面临气候变化的自然种群的适用性仍然未知。

研究组分析了在极端干旱条件下,猩红色猴面花(Mimulus cardinalis)的快速进化及其种群动态之间的联系。对55个种群进行全基因组测序,以确定与气候相关的基因座,同时还追踪了干旱期间种群结构和等位基因频率的变化。

结果发现,在干旱期间,整个种群数量大范围下降,种群进化速度存在地理差异,种群数量的恢复情况也各不相同,而这些情况都可通过与气候相关基因座上的遗传变异程度以及该位点的快速进化来预测。

这些研究结果表明,在野外环境中存在进化拯救的可能性,即在适应性位点而非中性位点上的基因变异能够预测种群的恢复情况。

▲ Abstract:

Populations that are declining as a result of climate change may need to evolve to persist. Although evolutionary rescue has been demonstrated in theory and in the laboratory, its relevance to natural populations facing climate change remains unknown. Here we link rapid evolution and population dynamics in scarlet monkeyflower, Mimulus cardinalis, during exceptional drought. We leverage whole-genome sequencing across 55 populations to identify climate-associated loci. Simultaneously we track demography and allele frequency change throughout the drought. We establish range-wide population decline during the drought, geographically variable rapid evolution, and variable population recovery that is predictable by standing genetic variation in, and rapid evolution at, climate-associated loci. These findings demonstrate the possibility of evolutionary rescue in the wild, showing that genetic variation at adaptive, but not neutral, loci predicts population recovery.

Evolutionary adaptation to global change reduces sustainable fisheries yields

对全球变化的进化适应性降低了可持续渔业的捕捞产量

▲ 作者:TAN Koz?owski , DUSTIN J. MARSHALL AND CRAIG R. WHITE

▲链接:

https://www.science.org/doi/10.1126/science.aea1341

▲摘要:

全球变暖正在改变支撑粮食安全的渔业资源,然而对这些影响的预测通常排除了进化过程。

研究组建立了一个模型,用于预测鱼类将如何适应未来的气候状况,以及这种进化对渔业产量的影响。

他们预测,在水温较高的环境中,鱼类的生长速度虽然会加快,但其性成熟时间会提早,从而导致其最大体型变小。同时还预测,进化过程能够减缓气候变化对鱼类适应能力的影响,但会加剧其对渔业产量的负面影响——使损失加剧约50%。

排除进化因素高估了所有排放情景下的未来渔业产量,但进化的影响在最极端的情景下最为明显。所有生物的生命周期都可能因全球变化而发生相应变化——在预测生态系统及其服务功能时,应当将这种演变因素考虑在内。

▲ Abstract:

Global warming is altering the fisheries that underpin food security, but projections of these impacts generally exclude evolutionary processes. We describe a model that forecasts how fish will adapt to future climates and the consequences of that evolution for fisheries yields. We predict that fish in warmer waters will grow faster but evolve earlier maturation, decreasing their maximum size. We predict that evolution ameliorates the impacts of climate change on fish fitness but exacerbates its impacts on fisheries yields—worsening losses by ~50%. Excluding evolution overestimates future yields under all emissions scenarios, but evolution’s impacts are greatest under the most extreme scenarios. All life histories may evolve in response to global change—this evolution should be considered in projections of ecosystems and their services.

动物学Zoology

Seal and sea lion brains have evolved to support volitional control of vocal behavior and learning

海豹和海狮的大脑已进化出支持自主发声控制以及发声学习的能力

▲ 作者:PETER F. COOK, ANDREW A. ROUSE, EVA SAWYER, KARLA MILLER AND GREGORY BERNS

▲链接:

https://www.science.org/doi/10.1126/science.adx9367

▲摘要:

海豹和海狮具有高度发达的自主呼吸控制能力,而海豹科还在此基础上进化出包括模仿在内的发声学习。

在这项工作中,研究组通过组织学分析和体外扩散磁共振成像追踪技术,为支持鳍足动物自主发声控制方面的累积神经适应的系统发育谱提供了证据。海狮科和海豹科动物(并非郊狼)的发声运动皮层与发声脑干核团之间存在直接联系。

海豹的丘脑前腹外侧与发声前运动皮层之间存在增生性连接——这是与鸟类发声学习以及人类和鹦鹉模仿能力相关的前脑回路的一部分。研究组证明,海豹科具有与发育阶段的发声学习相关的听觉-前运动通路。

▲ Abstract:

Seals and sea lions have highly developed volitional breathing control, to which the phocid seals add vocal production learning, including mimicry. In this work, using histology and ex vivo diffusion magnetic resonance imaging tractography, we provide evidence for a phylogenetic spectrum of accumulative neural adaptations supporting aspects of volitional vocal control across pinnipeds. Otariids and phocid seals, but not coyotes, have a direct connection between the vocal motor cortex and phonatory brainstem nuclei. Harbor seals showed hypertrophic connectivity between the anterior ventrolateral thalamus and the vocal premotor cortex—part of a forebrain circuit related to vocal learning in birds and mimicry in humans and parrots. We demonstrate that phocid seals have auditory-premotor pathways potentially related to developmental call learning.

Ravens anticipate wolf kill sites across broad scales

乌鸦预测大规模的狼群捕杀地点

▲ 作者:MATTHIAS-CLAUDIO LORETTO, KRISTINA B. BECK, DOUGLAS W. SMITH, DANIEL R. STAHLER, LAUREN E. WALKER, MARTIN WIKELSKI, ET AL.

▲链接:

https://www.science.org/doi/10.1126/science.adz9467

▲摘要:

食腐动物通常依赖分布零散且难以预测的腐肉为食。长期以来有一种假设认为,食腐乌鸦通过直接追踪大型食肉动物前往其捕猎点来可靠地定位这些食物。

然而,通过对黄石国家公园内69只乌鸦、20只狼和11只美洲狮进行卫星追踪,研究组发现乌鸦很少会远距离跟随捕食者。相反,乌鸦通常会再次重访狼群经常捕杀猎物的地点,它们会从远至155千米外返回来寻找腐肉。

就像导航至永久性的人为补给站一样,乌鸦似乎能够记住先前与狼或其猎物接触所形成的潜在腐肉来源。这些发现表明,在寻找短暂性资源的过程中,空间记忆和导航能力在食腐动物(以及可能在其他广泛物种中)的发挥作用要远大于此前假设。

▲ Abstract:

Scavengers generally rely on patchily distributed, unpredictable carrion. A long-standing hypothesis suggests scavenging ravens reliably locate such food by directly following large carnivores to their kills. However, by satellite tracking 69 ravens, 20 wolves, and 11 cougars in Yellowstone National Park, we found that following of predators over large distances rarely occurred. Instead, ravens routinely revisited sites where wolf kills were common—returning from distances of up to 155 kilometers to find carrion. Much like navigating to permanent anthropogenic subsidies, ravens appear to remember potential sources of carrion shaped by previous encounters with wolves or their kills. These findings suggest that spatial memory and navigation play a considerably greater role than previously assumed among scavengers, and possibly other wide-ranging species, in search of ephemeral resources.

公共卫生Public Health

Polymerase trapping as the mechanism of H5 highly pathogenic avian influenza virus genesis

聚合酶捕获导致H5高致病性禽流感病毒产生

▲ 作者:MATHIS FUNK, MONIQUE I. SPRONKEN , ROY M. HUTCHINSON, BENOIT ARRAGAIN, PAULINE JUYOUX, THEO M. BESTEBROER, ET AL.

▲链接:

https://www.science.org/doi/10.1126/science.adr6632

▲摘要:

高致病性禽流感病毒(HPAIV)源于H5和H7型低致病性禽流感病毒(LPAIV)。尽管几十年前学界就已确定,在血凝素基因中插入可被蛋白酶切割的多碱基切割位点(MBCS)是LPAIV向HPAIV转变的遗传基础,但这种插入事件的机制尚不清楚。

研究组展示了瞬时H5 RNA结构,预测将流感病毒聚合酶捕获在富含嘌呤的序列上,驱动核苷酸插入,为RNA结构参与MBCS获取提供了经验证据。将H5样序列和结构引入H6血凝素中,导致MBCS生成插入突变。

该研究结果表明,H5 HPAIV出现的核苷酸插入源于RNA结构驱动的多样性生成机制,该机制也可能发生在其他RNA病毒中。

▲ Abstract:

Highly pathogenic avian influenza viruses (HPAIVs) derive from H5 and H7 low pathogenic avian influenza viruses (LPAIVs). Although insertion of a furin-cleavable multibasic cleavage site (MBCS) in the hemagglutinin gene was identified decades ago as the genetic basis for the LPAIV-to-HPAIV transition, the mechanisms underlying the occurrence of insertion are unknown. Here, we show that transient H5 RNA structures, predicted to trap the influenza virus polymerase on purine-rich sequences, drive nucleotide insertions, providing empirical evidence of RNA structure involvement in MBCS acquisition. Introduction of H5-like sequences and structures into an H6 hemagglutinin resulted in MBCS-yielding insertions. Our results show that nucleotide insertions that underlie H5 HPAIV emergence result from an RNA structure–driven diversity-generating mechanism, which could also occur in other RNA viruses.

 特别声明:本文转载仅仅是出于传播信息的需要,并不意味着代表本网站观点或证实其内容的真实性;如其他媒体、网站或个人从本网站转载使用,须保留本网站注明的“来源”,并自负版权等法律责任;作者如果不希望被转载或者联系转载稿费等事宜,请与我们接洽。" alt="《科学》(20260312出版)一周论文导读—新闻—科学网">
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发布时间:2026-03-26 14:30:02来源:逗游作者:星空

幻想少女公会幻想少女公会冒险闯关像素冒险类
  • 游戏类别:冒险解谜
  • 游戏大小:74.16M
  • 游戏语言:简体中文
  • 游戏版本:v0.5.0
点击查看 游戏专题

在幻想少女公会游戏中玩家们可以搭配各种不同的阵容进行游玩,部分新手玩家不知道成长流应该如何搭配,下面就为大家带来幻想少女公会游戏中新手成长流的搭配推荐分享,有需要的玩家可以参考。

幻想少女公会新手成长流搭配

圣剑之灵【战士】,前排抗伤输出。

水晶菇娘【法师】/林中仙女【牧师】,中排续航辅助。

古树妖精【法师】,后排输出。

圣剑之灵作为新手赠送的人气角色,拥有优秀的坦度和爆发能力,配合成长流的血量加成,肉的同时伤害还高!

林中仙女是成长流核心的治疗辅助,可防止圣剑之灵在低血量的的时候暴毙,以及提供友方数量加成,提高圣剑之灵的输出能力;

古树妖精则提供支援加成和前期的副DPS。

前期林中仙女无法选择心愿较难获得,可用水晶菇娘代替,能为其他队友提供大量魔力,让圣剑之灵爆发更高,后期如果有更优秀的高阶输出角色可替换古树妖精。

核心装备与支援选择

在解锁了铁血高地地图后,可根据自身情况替换上位装备:

推荐符文

血石符文

【适配角色】圣剑之灵,

受到攻击后自身获得生命,刷取地图:广袤草原。

魔晶符文

【适配角色】林中仙女

释放技能后使自身获得魔力,刷取地图:废弃矿洞。

推荐天赋

圣剑之灵

林中仙女

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幻想少女公会新手成长
探索2026-07-16
HD 217236
时尚2026-07-16
海山五
探索2026-07-16
船底座V371
热点2026-07-16
《红色沙漠》官博宣布,《红色沙漠》发售24小时内全球累计销量达到200万套。

Pearl Abyss还表示,他们正在关注粉丝们反应的问题,正根据社区的反馈努力对《红色沙漠》进行快速更新和改进,以便玩家能接下来的冒险旅程更加精彩、愉快。

《红色沙漠》取得开门红 首日销量超过200万

官博:

“《红色沙漠》全球累计销量达到两百万份

很开心可以跟各位一起共享这么有意义的一刻。衷心感谢所有与我们一同踏上帕卫尔大陆的玩家与社区的伙伴们。我们将持续倾听社区的多样反馈,并快速推进优化与改进,竭尽所能让各位玩家接下来的冒险旅程更加精彩、愉快。”

考虑到《红色沙漠》在登上全球畅销榜榜首后,仅通过预购就在Steam平台售出了40万份,这些数字其实并不令人意外。这款动作冒险游戏在所有平台上都获得了超过300万玩家的愿望单,而这股热潮似乎也转化为了实际的销量。

《红色沙漠》取得开门红 首日销量超过200万

简体中文评价已降至“多半差评”:

《红色沙漠》取得开门红 首日销量超过200万

《红色沙漠》取得开门红 首日销量超过200万

《红色沙漠》取得开门红 首日销量超过200万

《红色沙漠》取得开门红 首日销量超过200万

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《红色沙漠》取得开门
娱乐2026-07-16
HD 220130
热点2026-07-16
HD 215724
焦点2026-07-16
HD 217131
休闲2026-07-16
iQOO Z11明日越级发布 超高刷电竞屏和超长续航创iQOO纪录iQOO Z11明日越级发布 超高刷电竞屏和超长续航创iQOO纪录

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iQOO Z11明日越级发布 超高刷电竞屏和超长续航创iQOO纪录

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  iQOO Z11x 一并亮相,具备“冰青绿”、“雪屿白”和“夜影黑”三款配色,采用大 R 角设计,外观优雅,握持舒适。配置方面,iQOO Z11x 搭载天玑 7400、7200mAh 超薄蓝海电池和全新 6.76 英寸 LCD 莱茵护眼屏,支持 IP68 & IP69,并通过 SGS 五星金标抗跌耐摔认证,可谓 LCD 党的梦中情机。

iQOO Z11明日越级发布 超高刷电竞屏和超长续航创iQOO纪录

  iQOO Z11 以天玑 8500 满血版和 Monster 超核引擎为核心,越级首发 iQOO 品牌首个 165Hz 护眼电竞屏和史上最大 9020mAh 超薄蓝海电池,拥有 7K 冰穹 VC 液冷散热、寰宇电竞网络系统、90W 超快闪充、6.83 英寸超大屏和蓝厂全自研人像算法,具备全新“沧浪浮光”、“天光白”和“极夜黑”三款配色,机身轻至 216.5g,薄至 8.25mm,配合旗舰感大 R 角和阶梯式缓坡 Deco 设计,握持感十分舒适。

  iQOO Z11 将携手 iQOO Z11x 为广大用户带来护眼高刷、超长续航和超高品质的用机体验,两款新机明日 19:00 正式发布并开售,现已开启预约,首销前 4 天购买 iQOO Z11 和 iQOO Z11x,分别可享至高 6 期分期免息和至高 3 期分期免息,还可 1 元抢至高价值 2235 元福袋。关注的朋友记得明天准时收看发布会!

iQOO Z11明日越级发布 超高刷电竞屏和超长续航创iQOO纪录

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iQOO Z11明日
休闲2026-07-16
長蛇座II
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