基于生态安全格局的上海国土空间生态修复关键区域识别与修复策略

新时期国土空间生态修复被赋予维护区域生态安全、提升区域生态系统质量和稳定性、提供优质生态产品的重任。从生态安全角度准确判定国土空间待修复关键区域,是其首要事项,也是科学开展生态修复的关键和难题。本研究基于主流生态安全格局构建理论和方法,以上海市为研究区域,集成运用形态学空间格局分析方法和InVEST模型识别生态源地,利用电路理论提取生态廊道、生态“夹点”和障碍点,综合判定待修复关键区域,并提出针对性修复策略。结果表明: 上海市生态源地主要分布在长江入海口、崇明岛、杭州湾沿岸及淀山湖区域,约占研究区面积的17.9%;源间关键廊道共计103条;待修复关键区域包括12处生态“夹点”和54处生态障碍点,主要分布在生态源地与生态廊道接壤处以及生态廊道与生态廊道的交点或拐点处;根据待修复关键区域典型问题及其土地利用状况,提出生态景观重塑、重要廊道贯通和生态岸线保护修复3类修复策略分区及其可能的工程措施建议。本研究结果可为上海市编制国土空间生态修复规划,以及全国其他地区构建相近尺度生态安全格局、开展系统性生态修复工作提供参考。     

纳木措可培养丝状真菌多样性及其与理化因子关系

微生物多样性在评估水体生态环境方面发挥着重要作用。本研究以青藏高原纳木措湖为研究对象, 开展水体可培养丝状真菌多样性及影响因子研究。通过膜过滤平置培养法、经典分类法和rRNA转录间隔区(ITS)序列分析对纳木措湖20个采样点的丝状真菌进行分离、纯化及鉴定, 测定水体理化指标, 综合分析丝状真菌空间分布格局与理化因子的相关性。菌种鉴定结果显示, 从纳木措水体样品中共分离纯化出1,412株丝状真菌, 隶属22属47种, 其中链格孢属(Alternaria)、青霉属(Penicillium)和毛霉属(Mucor)为优势属, 链格孢(Alternaria chlamydosporigena)和冻土毛霉(Mucor hiemalis)为优势种; Pearson相关性分析显示, 丝状真菌总丰度与温度、铵态氮、全磷呈显著正相关; 冗余分析显示, 铵态氮、温度、全磷、全氮、盐度及电导率是影响纳木措湖丝状真菌群落组成与分布的主要理化因子。综上所述, 纳木措水体可培养丝状真菌具有较高的物种多样性和空间异质性, 而且水体环境因子影响其分布。     

土壤原生生物多样性及其生态功能研究进展

原生生物广泛分布在土壤和不同生境中, 其数量庞大、种类繁多, 在生态系统物质循环和能量流动以及维持土壤和植物健康中起着举足轻重的作用。与土壤其他生物类群相比, 原生生物分类体系和生态类型复杂, 分类鉴定困难且分子检测技术不够成熟, 目前对原生生物的认识相对不足。本文对当前原生生物的相关研究进展进行了总结和梳理, 系统阐述了原生生物的分类系统和营养功能群特征、土壤原生生物的多样性分布特征及影响因子, 重点介绍了原生生物群落在参与土壤养分循环、维持土壤和植物健康等中的功能作用, 并对未来的研究方向与应用前景进行了展望。对土壤原生生物的研究有助于我们深入认识土壤生物多样性资源, 并进行保护性地开发和利用, 维护土壤和生态系统健康。     

丛枝菌根网络介导的植物间信号交流研究进展及展望

丛枝菌根(arbuscular mycorrhizal, AM)真菌是一类能够与绝大多数陆地植物形成共生关系的土壤真菌, 其根外菌丝可以侵染不同植物根系且可以进行菌丝融合, 从而形成丛枝菌根网络(arbuscular mycorrhizal networks, AMNs)。AMNs可以在植物之间转运水分及营养元素如碳(C)、氮(N)、磷(P)等, 最近研究表明AMNs还可以在植物遭受环境胁迫时向邻近植物传递防御信号, 对周围植物起到“预警”作用。目前, 关于环境胁迫条件下AMNs介导的信号物质传递研究仍处于起步阶段, 许多问题亟待回答。该文首先回顾了目前有关AMNs介导的信号物质传递研究进展, 继而梳理了这一研究领域值得进一步探究的科学问题, 包括AMNs在植物间传递防御信号的可能途径及相关机制, AMNs介导的信号传递对菌根共生体系的可能影响, 以及AMNs研究中常用的技术及其发展, 最后讨论了AMNs介导的信号物质传递在作物保护等方面的可能应用。     

管控视角下生态空间与生态保护红线关系研究

国土空间规划背景下, 生态保护红线是在生态空间的现有基础上提出管控要求, 但其与各类生态空间的管控要求之间是否兼容以及如何协调, 仍需要梳理。本研究首先将生态空间划分为自然和管理两大属性和宏观、中观和微观三个层次进行类型体系梳理; 然后, 基于管控视角, 从管理目标、管控内容与管控强度三方面着重探讨13类生态空间与生态保护红线的差异。在管控目标方面, 两者的支持与调节目标兼容度较高, 供给与文化目标定位差异较大; 在管控内容方面, 差异主要表现在培育修复类和人工利用类; 在管控强度方面, 生态保护红线两级管控强度和生态空间三级管控强度不完全匹配。建议以“两大属性三个层次”系统完善生态空间类型体系, 从管理目标、管控内容与管控强度三方面进行生态空间管控要求体系化构建; 进一步完善生态保护红线管控内容和管控强度, 使其与对应的各类生态空间管控要求更好地协调。     

福建省多花黄精生态适宜性区划研究

通过研究多花黄精(Polygonatum cyrtonema)的生态适宜性,为其野生资源保护及人工规范化栽培提供依据。收集237份多花黄精分布位置和55个生态因子,导入最大熵(MaxEnt)模型运算,结合地理信息系统(GIS)分析其适合生长区域。结果表明,影响多花黄精生态适宜性的主要生态因子是3月降水量、年均降水量、6月降水量、5月降水量、4月降水量、2月降水量和最冷季降水量,在福建省具有广泛适宜生长区域。模型预测结果可靠,可为多花黄精野生资源保护提供参考,并为其科学种植提供指导。     

Plumage coloration and personality in early life: sexual differences in signalling

Several studies have shown that melanin‐based traits play a crucial role in social contexts as they are associated with dominance, personality and social behaviour. However, most of these studies have focused on adults, and the role of these traits in juveniles has rarely been explored. Here, we explore the association between two melanin‐based traits and nestling personality in Common Kestrels Falco tinnunculus. Our results show that female nestlings with blacker plumages displayed bolder personalities, providing evidence of sex‐dependent phenotypic integration of these two traits in males and females. We consider that this differential integration may arise from different selection pressures acting on males and females on plumage coloration during adulthood and that nestling coloration can act as a status signal within the juvenile age‐class.     

A new marine prasinophyte genus alternates between a flagellate and a dominant benthic stage with microrhizoids for adhesion

Prasinophytes (Chlorophyta) are a diverse, paraphyletic group of planktonic microalgae for which benthic species are largely unknown. Here, we report a sand‐dwelling, marine prasinophyte with several novel features observed in clonal cultures established from numerous locations around Australia. The new genus and species, which we name Microrhizoidea pickettheapsiorum (Mamiellophyceae), alternates between a benthic palmelloid colony, where cell division occurs, and a planktonic flagellate. Flagellates are short lived, settle and quickly resorb their flagella, the basal bodies then nucleate novel tubular appendages, termed “microrhizoids”, that lack an axoneme and function to anchor benthic cells to the substratum. To our knowledge, microrhizoids have not been observed in any other green alga or protist, are slightly smaller in diameter than flagella, generally contain nine microtubules, are long (3–5 times the length of flagella) and are not encased in scales. Following settlement, cell divisions result in a loose, palmelloid colony, each cell connected to the substratum by two microrhizoids. Flagellates are round to bean‐shaped with two long, slightly uneven flagella. Both benthic cells and flagellates, along with their flagella, are encased in thin scales. Phylogenies based on the complete chloroplast genome of Microrhizoidea show that it is clearly a member of the Mamiellophyceae, most closely related to Dolichomastix tenuilepsis. More taxon‐rich phylogenetic analyses of the 18S rRNA gene, including metabarcodes from the Tara Oceans and Ocean Sampling Day projects, confidently show the distinctive nature of Microrhizoidea, and that the described biodiversity of the Mamiellophyceae is a fraction of its real biodiversity. The discovery of a largely benthic prasinophyte changes our perspective on this group of algae and, along with the observation of other potential benthic lineages in environmental sequences, illustrates that benthic habitats can be a rich ground for algal biodiscovery.     

Contrasting patterns of genetic structure and phylogeography in the marine agarophytes Gelidiophycus divaricatus and G. freshwateri (Gelidiales,Rhodophyta) from East Asia

The evolutionary and population demographic history of marine red algae in East Asia is poorly understood. Here, we reconstructed the phylogeographies of two upper intertidal species endemic to East Asia, Gelidiophycus divaricatus and G. freshwateri. Phylogenetic and phylogeographic inferences of 393 mitochondrial cox1, 128 plastid rbcL, and 342 nuclear ITS2 sequences were complemented with ecological niche models. Gelidiophycus divaricatus, a southern species adapted to warm water, is characterized by a high genetic diversity and a strong geographical population structure, characteristic of stable population sizes and sudden reduction to recent expansion. In contrast, G. freshwateri, a northern species adapted to cold temperate conditions, is genetically relatively homogeneous with a shallow population structure resulting from steady population growth and recent equilibrium. The overlap zone of the two species roughly matches summer and winter isotherms, indicating that surface seawater temperature is a key feature influencing species range. Unidirectional genetic introgression was detected at two sites on Jeju Island where G. divaricatus was rare while G. freshwateri was common, suggesting the occurrence of asymmetric natural hybrids, a rarely reported event for rhodophytes. Our results illustrate that Quaternary climate oscillations have left strong imprints on the current day genetic structure and highlight the importance of seawater temperature and sea level change in driving speciation in upper intertidal seaweed species.     

Contrasting effects of high‐intensity photosynthetically active radiation on two bloom‐forming dinoflagellates

While light limitation can inhibit bloom formation in dinoflagellates, the potential for high‐intensity photosynthetically active radiation (PAR) to inhibit blooms by causing stress or damage has not been well‐studied. We measured the effects of high‐intensity PAR on the bloom‐forming dinoflagellates Alexandrium fundyense and Heterocapsa rotundata. Various physiological parameters (photosynthetic efficiency F_v/F_m, cell permeability, dimethylsulfoniopropionate [DMSP], cell volume, and chlorophyll‐a content) were measured before and after exposure to high‐intensity natural sunlight in short‐term light stress experiments. In addition, photosynthesis‐irradiance (P‐E) responses were compared for cells grown at different light levels to assess the capacity for photophysiological acclimation in each species. Experiments revealed distinct species‐specific responses to high PAR. While high light decreased F_v/F_m in both species, A. fundyense showed little additional evidence of light stress in short‐term experiments, although increased membrane permeability and intracellular DMSP indicated a response to handling. P‐E responses further indicated a high light‐adapted species with Chl‐a inversely proportional to growth irradiance and no evidence of photoinhibition; reduced maximum per‐cell photosynthesis rates suggest a trade‐off between photoprotection and C fixation in high light‐acclimated cells. Heterocapsa rotundata cells, in contrast, swelled in response to high light and sometimes lysed in short‐term experiments, releasing DMSP. P‐E responses confirmed a low light‐adapted species with high photosynthetic efficiencies associated with trade‐offs in the form of substantial photoinhibition and a lack of plasticity in Chl‐a content. These contrasting responses illustrate that high light constrains dinoflagellate community composition through species‐specific stress effects, with consequences for bloom formation and ecological interactions within the plankton.