根系修剪对枳生长及相关基因表达的影响

以枳实生苗为试验材料,通过两年重复试验分析了不切除主根、切除1/3主根、切除1/2主根、切除2/3主根等4个不同水平根系修剪处理下枳实生苗生长发育、根系构型和营养吸收的情况,并检测了不同水平根系修剪处理对侧根发育关键基因表达量的影响。结果表明,切除1/2主根处理增加了枳实生苗的株高、茎粗、地上部鲜重和根系鲜重,改善了根系构型参数(侧根数、总根长、根表面积和平均长度),增加了根系P、K、Ca、B、Fe、Na和Zn等营养元素含量。另外,实时荧光定量PCR(qRT-PCR)检测发现,根系修剪处理诱导了侧根发育关键基因HOX1和CYP2的积累,并抑制了IAA11和IAA13的表达。综上所述,适度根系修剪可能通过诱导HOX1、CYP2基因的上调和IAA11、IAA13基因的下调来调控枳实生苗侧根的生长发育,改善根系构型,从而提高枳实生苗对营养元素的吸收能力及植株的生长发育。     

道路草花景观对驾驶人员红灯敏感度的影响

近年来,随着对城市道路景观构建的重视,道路绿化、彩化景观愈发优美和引人注目。该文基于152份有效问卷,研究对比分析了3种道路灌-草层的绿化形式(绿篱式、50%草花覆盖式及100%草花覆盖式)对有驾驶经验的受访者红灯敏感度的影响。结果显示,相对于绿篱式道路绿化,草花式道路绿化会造成受访者红灯敏感度降低;女性比男性的红灯敏感度高,但更易受草花干扰;25—45岁年龄段受访者对红灯的敏感度和抗草花干扰能力比18—25岁及45岁以上受访者高;相对于偏好草花式绿化的受访者,偏好绿篱式绿化的受访者有更高的红灯敏感度和抗草花干扰能力。建议应尽量避免在事故易发地段大面积应用颜色艳丽的草花进行道路绿化。     

Modulation of plant root traits by nitrogen and phosphate: transporters,long-distance signaling proteins and peptides,and potential artificial traps

As sessile organisms, plants rely on their roots for anchorage and uptake of water and nutrients. Plant root is an organ showing extensive morphological and metabolic plasticity in response to diverse environmental stimuli including nitrogen (N) and phosphorus (P) nutrition/stresses. N and P are two essential macronutrients serving as not only cell structural components but also local and systemic signals triggering root acclimatory responses. Here, we mainly focused on the current advances on root responses to N and P nutrition/stresses regarding transporters as well as long-distance mobile proteins and peptides, which largely represent local and systemic regulators, respectively. Moreover, we exemplified some of the potential pitfalls in experimental design, which has been routinely adopted for decades. These commonly accepted methods may help researchers gain fundamental mechanistic insights into plant intrinsic responses, yet the output might lack strong relevance to the real situation in the context of natural and agricultural ecosystems. On this basis, we further discuss the established—and yet to be validated—improvements in experimental design, aiming at interpreting the data obtained under laboratory conditions in a more practical view.     

四川新津白鹤滩国家湿地公园核心区植物景观配置研究

四川新津白鹤滩国家湿地公园位于成都市新津县境内,是典型的河流漫滩和沙洲地貌。受亚热带湿润气候影响,湿地公园核心区拥有种类丰富的湿地动植物资源,但近几年人们在场地周边的开发活动,对基地原有植物生态环境造成破坏_^[1]。现在核心区仅存那些对水质要求低和抗逆性强的植物,同时也因为植物种类过于单一,随之而来的就是湿地季节性功能失调现象,如对水质净化的能力差,水体富营养化严重。为缓解和改善湿地核心区现存问题,一个具有生态修复功能的植物景观配置就显得尤为重要,本论文主要以生态恢复学、植被演替理论等为理论支撑,借鉴LID技术在湿地生态修复的应用,结合对基地本身植物资源调查的基础,通过对不同植物的配置选择,构建起了多样的新旧植物景观模式,用以探索科学合理的湿地公园植物景观配置模式,以期恢复新津湿地公园植被生态多样性,提升视觉景观效果。     

基于B/S的农业气象自动化观测系统国家级平台设计与应用

农业气象自动化观测系统国家级平台是依托中国气象局组织的农业气象自动化观测试点工作而设计开发,平台的搭建采用B/S架构实现多级用户、跨平台登录,采用XML及JSON等数据传输格式实现国家级、省级、台站级用户信息交互,实现农业气象观测XML数据传输状态的监控、台站端设备状态的评估以及数据内容的实时查询。     

景观园林施工设计及绿化养护技术要点分析

无论是景观园林施工还是绿化养护，均是城市环境建设的重要组成部分，与人们的生产生活 息息相关。大多数综合性景观园林施工面临成本难以控制的问题，因其工程量较大、施工周期较长、 周边环境复杂，整个施工过程不可预测的变数较多，施工成本和施工难度居高不下。文章主要就景观 园林施工设计及绿化养护技术要点进行了分析与阐述，意在提高景观园林施工及绿化养护的水平和 质量。     

不同磷水平柱花草磷效率及根构型研究

为研究不同磷水平下柱花草磷效率的基因型差异及其与根构型的关系，利用盆栽试验，以磷低效、磷高效、磷敏感3种基因型柱花草品种为材料，研究0、0020、0035、0050、0075、0100、0200 g·kg-1共7个磷水平下，不同基因型柱花草的磷营养特性；并进一步比较两个代表性基因型（磷低效、磷高效）柱花草在对照(0 g·kg-1)、缺磷(0010 g·kg-1)、正常磷（0025 g·kg-1）处理下苗期根系生长状况，从而确定根构型与磷效率的关系。结果表明：不同基因型植株的磷含量、吸磷量随磷浓度的增加而增加，磷利用效率对磷浓度的反应趋势则相反。在不同磷处理下，磷高效基因型的磷利用效率均较高，且随着磷浓度的增加不同基因型品种磷利用效率的变化趋势度表现为：磷高效＜磷低效＜磷敏感。随着磷胁迫的加重，磷高效和磷低效基因型的侧根数、主根长、根体积、根表面积和根活跃吸收面积均增加，根直径减小。磷高效基因型柱花草根体积显著高于磷低效基因型，且在其他根构型指标上优于磷低效基因型。磷高效基因型品种较耐低磷，柱花草根系形态的改变是其适应低磷胁迫的重要机制。研究为柱花草的优质栽培提供理论依据。     

小型低维护景观设计探析

通过对国内外低维护景观的实践案例分析,认为植物景观因其独特的美学和生态价值已然成为生活中不可或缺的一部分。探讨了低维护景观的概念,以及小型低维护景观设计的必要性、可行性和发展前景。将景观维护成本的影响因素归结为植物更替、设备维护,进而从低维护植物设计和种植容器设计两方面探讨了小型景观维护成本的控制问题。通过构建从雨水收集到自动循环利用的系统,根据植物生长特点,合理搭配种植,建立一个美观实用的小型低维护景观。     

Agronomic performance of an IR64 introgression line with large leaves derived from New Plant Type rice in aerobic culture

Aerobic culture is a promising water-saving technology in irrigated rice ecosystems, but the vulnerability of plants to fluctuations in soil moisture constrains leaf expansion and yield. The objective of this study was to examine whether an aboveground architecture with large leaves and reduced tillering is associated with vigorous leaf growth in aerobic rice culture. In a series of field experiments, we evaluated the agronomic performance of an IR64 introgression line, YTH323 (IR84640-11-27-1-9-3-2-4-2-2-2-B), with fewer tillers and larger leaves than IR64, derived from New Plant Type rice, under various water and nitrogen conditions. In flooded culture, YTH323 yielded the same as IR64 and 38% more than IR65564-44-51 (a New Plant Type rice) (9.0 vs. 6.6 t ha⁻¹). In aerobic culture, in contrast, it yielded 81% more than IR64 in slightly dry soils (5.1 vs. 2.8 t ha⁻¹). YTH323 had a higher leaf area index than IR64 and IR65564-44-51 under slightly dry soil conditions and under a range of nitrogen conditions. The higher and more stable yield of YTH323 in aerobic culture was attributable to greater early vigor, high specific leaf area, a high ratio of leaf weight to total biomass, and larger leaves, along with the characteristics of high-yield cultivars such as high responsiveness to fertilizers and good grain filling. We conclude that genetic modification of the aboveground architecture of IR64, a typical tropical lowland rice cultivar, to reduce tiller and leaf number improves adaptation to aerobic culture.     

切根与不同形态氮素对板栗苗木根系构型及生长的影响

为探明不同调控技术对板栗根系构型的影响和对板栗生长发育的作用效果,以期为培育高质量板栗苗木提供科学依据,采用大田板栗苗木为对象进行切根(切根深度分别为12、8、4 cm、CK)及不同形态氮素(尿素、硝酸钠、CK)追肥试验。结果表明:苗高生长量最大的处理为X2N2,地径生长量最大的处理为X4N1,不同处理苗木地径生长量差异性不显著;在同样切根深度的处理下,施用尿素的苗木在根系总根长、总表面积、总体积上均大于施用硝酸钠的苗木,也即NH^+4较NO^-3对板栗苗木根系生长发育具有更好的促进效果;X1N1、X2N1、X2N3处理在不同径级侧根的根长、根表面积、根体积上分别达到最高,差异性显著(P<0.05)。综合考虑苗木根系指标和形态指标,X2N1即切根深度8 cm结合施用尿素为板栗苗木根系的最佳调控处理。