排序方式: 共有33条查询结果,搜索用时 15 毫秒
1.
2.
3.
反硝化过程是土壤氮素循环的重要过程之一,与土壤氮肥损失和温室气体排放紧密相关。通过分析不同施肥方式对东北旱田黑土nirK型和nirS型反硝化细菌群落结构的影响及其与N2O排放的关系,证实黑土中nirK型比nirS型反硝化细菌多样性丰富,且更易受土壤理化性质的影响。施入化肥会降低东北旱田黑土反硝化细菌多样性、N2O释放量和土壤养分含量,而有机肥的施入虽然可提高土壤养分含量,但是也会显著增加土壤反硝化作用,存在潜在的负面环境效应。因此对黑土地的保护要积极推行种养结合,建立可循环农业体系;适当配施有机肥料,调节黑土微生物活力;大力完善相关制度,营造科学管理新规范,从而构建我国黑土保护的立体格局。 相似文献
4.
红松阔叶混交林林隙极端地面温度的地统计学分析 总被引:3,自引:1,他引:2
以小兴安岭原始红松阔叶混交林林隙为研究对象,采用网格法布点,通过对生长季内林隙各样点极端地面温度的连续观测,利用经典统计学和地统计学的方法分析并揭示了林隙极端地面温度的时空分布格局。研究结果表明:林隙极端地面温度不同空间样点之间存在异质性,而且异质性的强度、 尺度和空间结构组成随时间而改变,各月平均极端地面温度斑块形状复杂,最高地面温度大小顺序均为6月>7月>8月>9月,最低地面温度大小顺序为7月>8月>6月>9月,月平均地温的最大值和最小值分布位置不固定,同一月份地面最高温度的大小顺序是空旷地>林隙>郁闭林分,地面最低温度大小顺序是郁闭林分>林隙>空旷地。研究旨在为红松阔叶混交林的可持续经营提供基础数据和理论参考。 相似文献
5.
Li Na Wang Genxu Liu Guangsheng Lin Yun Sun Xiangyang 《Regional Environmental Change》2013,13(5):1099-1108
The alpine ecosystems in permafrost regions are extremely sensitive to climate change. The headwater regions of Yangtze River and Yellow River of the Qinghai-Tibet Plateau are on the permafrost area. Aerial photos of the Source Regions of the Yangtze and Yellow River taken in 1968 and three phases of TM images acquired from 1986, 2000, and 2008 were used to analyze the spatial alterations of the land cover and corresponding effects on the environment guided by landscape ecology theory. Firstly, land cover types were divided into three classes and 11 subclasses. Analysis results revealed the trends and magnitude of the eco-environmental changes in the regions over the past four decades and showed a continuous degradation of grasslands and the extension of desertification and salinization. Secondly, five landscape pattern indices (i.e., NP, MPS, PR, SHEI, CONTAG) commonly used in landscape ecological studies were calculated, and results showed that this region had become more centralized and diversified. Finally, the factors causing the degradation of alpine grasslands were analyzed. The regional climate exhibited a tendency toward significant warming and desiccation with the air temperature increased by 0.03 °C per year and relative stable precipitation over the last 40 years. And the temperature of permafrost in 0–20 cm soil layer obviously raised by 0.2–0.3 °C in the last 40 years. The combined effects of climate warming and permafrost variation were the major drivers for the changes of landscape in alpine ecosystems. 相似文献
6.
Charles T. Garten Deanne J. Brice Hector F. Castro Robin L. Graham Melanie A. Mayes Jana R. Phillips Wilfred M. Post Christopher W. Schadt Stan D. Wullschleger Donald D. Tyler Phillip M. Jardine Julie D. Jastrow Roser Matamala R. Michael Miller Kelly K. Moran Timothy W. Vugteveen R. Cesar Izaurralde Allison M. Thomson Tristram O. West James E. Amonette Jeffrey L. Smith 《Agriculture, ecosystems & environment》2011,140(1-2):289-297
Switchgrass (Panicum virgatum) is a perennial, warm-season grass that has been identified as a potential biofuel feedstock over a large part of North America. We examined above- and belowground responses to nitrogen fertilization in “Alamo” switchgrass grown in West Tennessee, USA. The fertilizer study included a spring and fall sampling of 5-year old switchgrass grown under annual applications of 0, 67, and 202 kg N ha?1 (as ammonium nitrate). Fertilization changed switchgrass biomass allocation as indicated by root:shoot ratios. End-of-growing season root:shoot ratios (mean ± SE) declined significantly (P ≤ 0.05) at the highest fertilizer nitrogen treatment (2.16 ± 0.08, 2.02 ± 0.18, and 0.88 ± 0.14, respectively, at 0, 67, and 202 kg N ha?1). Fertilization also significantly increased above- and belowground nitrogen concentrations and decreased plant C:N ratios. Data are presented for coarse live roots, fine live roots, coarse dead roots, fine dead roots, and rhizomes. At the end of the growing season, there was more carbon and nitrogen stored in belowground biomass than aboveground biomass. Fertilization impacted switchgrass tissue chemistry and biomass allocation in ways that potentially impact soil carbon cycle processes and soil carbon storage. 相似文献
7.
管网工程对环境的影响主要表现为施工期。施工过程将对声环境、环境空气、生态环境、社会环境等产生不同程度的影响。供热管网施工过程中,由于管网铺设、开挖将可能破坏地表植被。同时,施工产生的临时弃土,若处理不当,将可能产生水土流失;同时工程拆迁及施工期各类污染物的排放影响居民生活质量,以及管线敷设管沟填埋前将对居民出行产生一定影响。结合给水管网建设工程的特点,从施工期分析给水管网建设项目对环境的影响及需采取的污染防治措施。 相似文献
8.
9.
马铃薯加工项目产生的废水主要是高浓度有机废水,本文研究了通过采用气浮分离/UASB/SBR处理工艺处理此废水。经处理后,各污染物指标达到《淀粉工业水污染物排放标准》(GB 25461-2010)表2间接排放限值后排放城市污水处理厂。 相似文献
10.
O3浓度升高对南方城市绿化树种氮素的影响 总被引:1,自引:0,他引:1
近地层臭氧(O3)浓度升高会降低树木的光合速率,抑制Rubisco酶的活性,势必会间接影响树木N素的吸收与分配.本研究利用开顶式气室研究过滤大气(CF,<20 nL·L-1)与O3浓度升高(E-O3,约150 nL·L-1)对10种南方城市常用绿化树种幼苗N素吸收和分配的影响.结果表明,与CF相比,E-O3使枫香叶生物量和马褂木茎生物量分别显著降低了20.9%和21.4%,使枫香和马褂木的根生物量显著降低了24.2%和32.5%.O3对被测树种茎中N素含量影响显著,而对叶和根中N素含量无显著影响.O3对被测树种整株树N素吸收总量(Ntu)、叶片N素吸收量及根的N素吸收量存在显著影响,而对茎N素吸收量无显著影响.与CF相比,E-O3使马褂木与木荷的Ntu分别显著降低了28.4%与22.7%,而使舟山新木姜子Ntu显著增加了15.5%.O3浓度升高对各树种N素吸收量在各器官中的分配无显著影响. 相似文献