大都市边缘区三级基本农田集中保护区分级划定及调控机制

针对大都市边缘区城市拓展与农地保护矛盾尖锐、景观破碎化、权属细碎化、整体布局稳定性差等问题,开展三级基本农田集中保护区分级划定及调控机制研究,对大都市边缘区保红线保发展促集约促创新具有重要意义。该文以北京市昌平区为例,提出三级基本农田集中保护区划定的总体思路,构建基本农田集中保护区识别指标体系,划定基本农田集中保护区,并将基本农田集中保护区分为市区乡三级,在此基础上探讨基本农田集中保护区分级调控机制。研究划定了1个市级基本农田集中保护区、6个区级基本农田集中保护区、6个乡级基本农田集中保护区,规划土地整治复耕1 149.97 hm2,使单位基本农田经营规模提高到38.76 hm2,使3 hm2以下细小图斑降低至1.21%,实现了昌平区内96.63%的基本农田集中连片保护,建立了规划调控、用途管制、奖惩联动分级调控机制。研究结果可为国家制定基本农田保护区分级保护政策和开展同类研究提供参考,为地方政府提高基本农田保护区保护质量和管理效率提供思路借鉴。     

外源NO对Ca(NO3)2胁迫下黄瓜幼苗生长和抗氧化系统的影响

本研究以黄瓜为试材,采用营养液水培,研究了外源NO对Ca(NO3)2胁迫下黄瓜幼苗生长和抗氧化酶系的影响.结果显示,在70mmol·L-1的Ca(NO3)2胁迫下,植株生长受到抑制,干重和叶绿素含量显著下降,叶片和根系抗氧化酶SOD、POD、CAT和APX活性均升高,膜脂过氧化产物MDA及可溶性 蛋白含量增加.而叶面喷施NO供体SNP显著缓解了Ca(NO3)2胁迫对黄瓜幼苗生长的抑制,植株干重显著增加.同时,抗氧化酶活性、可溶性蛋白和叶绿素含量也有不同程度的上升,MDA含量显著下降.以上表明,NO能够增强黄瓜幼苗对Ca(NO3)2胁迫的耐性.喷施SNP对正常营养液培养的黄瓜幼苗无显著影响.     

大气CO2和O3升高对菜地土壤酶活性和微生物量的影响

利用OTC平台和青菜盆栽实验,探索[CO2]、[O3]或[CO2+O3]升高条件下,土壤理化性质、微生物量和土壤酶活性的变化,以期获得未来大气CO2或/和O3升高对土壤微生态系统的风险性。结果表明,[CO2]升高不同程度地提高了土壤的可溶性有机碳（DOC）、可溶性有机氮（DON）、总磷（TP）、总碳（TC）、铵态氮（AN）、硝态氮（NN）含量和含水量（SWC）,进而不同程度地提高了土壤微生物量碳（MBC）、微生物量氮（MBN）含量以及土壤蛋白酶（PRA）、蔗糖酶（SA）、脲酶（UA）、多酚氧化酶（POA）、酸性磷酸酶（APA）和中性磷酸酶（NPA）活性。相反,[O3]升高不同程度降低了土壤DOC、TP、TK、TC、TN、AN、NN、SWC、MBC和MBN含量,提高了MBC/MBN比值,在不同程度上降低了土壤PRA、SA、UA、POA、APA和NPA酶活性。而[CO2+O3]在一定程度上消减了[O3]对土壤微生物量和酶活性的抑制作用,也降低了[CO2]升高对土壤微生物量和酶活性的刺激效应。因此,土壤微生物量和土壤酶活性的变化可用于评价未来大气CO2或/和O3升高对菜地土壤微生态环境的影响。     

高寒山区地形序列土壤有机碳和无机碳垂直分布特征及其影响因素

地形、生物气候条件具有明显差异的青藏高原约占我国陆地面积的五分之一,开展该地区土壤有机碳和无机碳分布特征的研究对于理解青藏高原土壤碳循环过程与陆地碳库的精确预测以及应对全球气候变化具有重要意义。研究选取位于祁连山中段的阴、阳坡地形序列土壤,分析了不同坡向间以及同一坡向内随海拔高度变化土壤有机碳和无机碳的垂直分布特征及其影响因素。结果表明:阴、阳坡有机碳含量均随土壤深度增加而下降,但阳坡下降的速率(66%~91%)明显高于阴坡(31%~77%);阴坡土壤中碳酸钙基本淋失,通体无机碳含量较低(5.0 g kg-1),阳坡B层土壤无机碳含量是A层的2倍,表现为明显富集。阴坡和阳坡1 m土体总碳密度相当(分别为16.1~33.9 kg m-2和11.8~32.8 kg m-2),其中,阴坡以有机碳为主(占总碳密度的82%~99%),而阳坡有机碳和无机碳密度变化均较大(分别占总碳密度的27%~81%和19%~73%)。因此,坡向是影响高寒山区土壤碳垂直分布和组成的重要因素。此外,降雨量和植被类型对地形序列土壤有机碳和无机碳含量的空间变异也具有重要影响:降雨量每增加1 mm,表层(0~20 cm)土壤有机碳含量增加0.4 g kg-1,而淀积层(40~80 cm)土壤无机碳含量下降0.2 g kg-1;植被类型在一定程度上影响了土壤有机碳的富集程度。本研究揭示了青藏高寒山区土壤碳循环及其碳库预测应充分考虑微地形对坡面尺度下土壤碳垂直分布、碳库组成和空间变异的影响。     

基于ZigBee和嵌入式技术的无线安防监控系统研究与设计

针对传统有线安防系统的局限性,通过对zigbee技术和嵌入式技术的研究,提出了一种基于zigbee组网技术和嵌入式控制技术的住宅小区无线安防监控系统,实现了布防后能够对住宅小区生活中存在的火灾、盗窃、煤气泄漏等安全隐患进行监测及报警。采用基于ZigBee标准的射频芯片CC2430,实现节点间数据的无线传输,并给出了系统的硬件原理框图和软件设计思路。     

Carbon isotopic ratios of wetland and terrace soil sequences in the Maya Lowlands of Belize and Guatemala

This article provides new data and synthesizes earlier findings on the carbon isotope ratios of the humin part of soil organic matter from a range of sites in the central Maya Lowlands. Changes down the soil profile in carbon isotope ratios can provide an important line of evidence for vegetation change and erosion over time, especially in well dated aggrading profiles. Research thus far has provided substantial evidence for significant inputs from C₄ vegetation in buried layers from the Ancient Maya periods in depositional soils but equivocal evidence from sloping soils. We present new findings from soil profiles through ancient Maya wetland fields, upland karst wetlands, ancient Maya aguadas (reservoirs), and ancient Maya terraces. Most of the profiles exhibited δ¹³C enrichment greater than the 2.5–3‰ typical from bacterial fractionation. Seven of nine ancient Maya wetland profiles showed δ¹³C enrichment ranging from 4.25 to 8.56‰ in ancient Maya-dated sediments that also contained phytolith and pollen evidence of grass (C₄ species) dominance. Upland karst sinks and ancient reservoirs produced more modest results for δ¹³C enrichment. These seasonal wetland profiles exhibited δ¹³C enrichment ranging from 1 to 7.3‰ from the surface to ancient Maya-period sediments. Agricultural terraces produced mixed results, with two terraces having substantial δ¹³C enrichment of 5.34 and 5.66‰ and two producing only equivocal results of 1.88 and 3.03‰ from modern topsoils to Maya Classic-period buried soils. Altogether, these findings indicate that C₄ plants made up c. 25% of the vegetation at our sites in the Maya Classic period and only a few percent today. These findings advance the small corpus of studies from ancient terraces, karst sinks, and ancient wetland fields by demonstrating substantial δ¹³C and thus C₄ plant enrichment in soil profile sections dated to ancient Maya times. These studies are also providing a new line of evidence about local and regional soil and ecological change in this region of widespread environmental change in the Late Holocene.     

Pedogenic carbonate recrystallization assessed by isotopic labeling: a comparison of 13C and 14C tracers

The C isotopic composition (δ¹³C) of pedogenic carbonates reflects the photosynthetic pathway of the predominant local vegetation because pedogenic (secondary) CaCO₃ is formed in isotopic equilibrium with soil CO₂ released by root and rhizomicrobial respiration. Numerous studies show the importance of pedogenic carbonates as a tool for reconstructing paleoecological conditions in arid and semiarid regions. The methodological resolution of these studies strongly depends on the time scale of pedogenic carbonate formation, which remains unknown. The initial formation rate can be assessed by ¹⁴C labeling of plants grown on loess and subsequent incorporation of ¹⁴C from rhizosphere CO₂ into newly formed carbonate by recrystallization of loess CaCO₃. We tested the feasibility of ¹⁴C and ¹³C tracers for estimating CaCO₃ recrystallization rates by simultaneous ¹⁴C and ¹³C labeling and comparison with literature data. ¹⁴C labeling was more efficient and precise in assessing recrystallization rates than ¹³C labeling. This is connected with higher sensitivity of ¹⁴C liquid scintillation counting when compared with δ¹³C measurement by IRMS. Further, assessment of very low amounts of incorporated tracer is more precise with low background signal (natural abundance), which is true for ¹⁴C, but is rather high for ¹³C. Together, we obtained better reproducibility, higher methodological precision, and better plausibility of recrystallization rates calculated based on ¹⁴C labeling. Periods for complete CaCO₃ recrystallization, extrapolated from rates based on ¹⁴C labeling, ranged from 130 (125–140) to 240 (225–255) y, while it was ≈ 600 (365–1600) y based on the ¹³C approach. In terms of magnitude, data from late‐Holocene soil profiles of known age provide better fit with modeled recrystallization periods based on the ¹⁴C approach.     

包膜控释尿素（追施）对冬小麦生长发育及土壤硝态氮含量的影响

通过田间试验,研究了苗期和返青期追施释放期为30d和60d的包膜控释尿素对冬小麦生长发育及土壤硝态氮含量的影响。结果表明,分别在冬小麦苗期和返青期追施释放期为60d包膜控释尿素（N60N60）,能显著促进植株生长发育,增强植株对N、P、K养分吸收,增加籽粒产量。与不追肥（CK）处理相比,N60N60处理植株地上部和地下部干物重分别提高33.21%和67.84%;叶片叶绿素含量增加12.77%～25.20%;植株茎叶N、P、K含量分别增加63.55%、37.08%和6.91%,籽粒N、P、K含量分别增加8.56%、31.18%和24.49%;小麦穗长、穗粒重、千粒重和籽粒产量分别增加14.14%、27.00%、39.32%和48.01%。在返青期追施1次包膜控释尿素,N0N30优于N0N60处理,叶绿素含量增加1.50%～3.04%;植株茎叶N、P、K含量分别增加12.37%、12.25%和1.26%,籽粒N、P、K含量分别增加0.50%、5.69%和9.74%;小麦穗长、穗粒重、千粒重和籽粒产量分别增加2.84%、11.81%、11.65%和6.61%。同时,包膜控释尿素施用能明显减少硝态氮向土壤深层渗漏数量,减轻对地下水污染风险。     

园林植物模型在Quest3D中的应用研究

随着计算机软硬件水平的提高和可视化技术的不断发展更新,虚拟现实技术在园林中应用的领域越来越广,对园林设计的影响也越来越大。作为主流的虚拟现实软件,Quest3D在园林表现中越来越多地被应用,而园林植物对园林设计效果的表现起着重要的作用。对园林植物模型在Quest3D中的应用提出了优化的方法,以改进和完善基于Quest3D的园林虚拟漫游系统的表现效果。     

基于无线传感网络的耕种机具空间力监测系统开发与试验

针对实时监测耕种机具作业中所受空间力大小,该文提出了一种能够在现场和远程实时监测耕种机具受力情况并带有提示报警的监测系统。该系统采用基于Zigbee的WSN（wireless sensor network）完成数据的采集和近程传输,采用嵌入式处理器ARM11作为现场监测终端的中央处理单元CPU,并搭建WinCE6.0操作系统,完成数据交换、处理和监测报警等功能。通过安装在耕种机具上的测力传感器,实现对耕种机具受力情况的实时检测。经土槽试验测试,系统实现了耕种机具空间力的实时监测以及监测数据的存储,人机界面交互性良好,可为耕种机具的研究设计提供技术支持。