内蒙古温带草原群落结构和生态系统功能对火烧、氮素添加和地形的响应

我国北方温带草原是欧亚大陆草原生物群区的重要组成部分，对于区域和全球的碳循环和平衡起着重要的作用。频繁的自然或人为干扰能够改变草原生态系统的群落结构和生态系统功能，从而影响生态系统为人类提供的产品和服务。本研究选取位于内蒙古多伦县的半干旱温带草原，研究火烧、氮素添加和地形以及它们的综合作用对该地区植物生产力、植物多样性、盖度和土壤呼吸的影响；另外，我们比较研究了由于地形因素而存在于草原地区的林地群落与其邻近草地的碳氮库和循环；旨在探讨我国北方温带草原地区人为干扰对草原生态系统结构与功能的影响以及该地区林地和草地碳氮库和循环的差异机理，以期为模型模拟本地区的生态系统碳循环提供理论依据和数据支持，具体研究结果如下： 1. 2006–2008 年，通过研究植物多样性和盖度对地形、火烧和氮素添加及其交互作用的响应，结果表明：半干旱草原植物物种数、香农威纳指数、均一性指数和盖度均表现出显著的年际变化。坡下的物种数、香农威纳指数和均一性指数均低于坡上。坡下较高的羊草(Leymus chinensis)、冰草(Artemisia frigida)、唐松草(Thalictrum petaloideum)和冷蒿(Agropyron cristatum)的盖度导致坡下的群落总盖度、禾本科草和非禾本科草盖度分别比坡上高22.5%、9.6%和13.2%。春季火烧提高了物种数、香农威纳指数和均一性指数。火烧对群落总盖度影响较小是由于火烧后非禾本科草冷蒿盖度的降低抵消了禾本科草羊草、冰草和针茅(Stipa kryroii)盖度的增加。施氮肥后物种数、香农威纳指数和均一性指数均降低。禾本科草羊草、冰草和针茅以及非禾本科草唐松草盖度的增加导致施肥后群落总盖度、禾本科草和非禾本科草的盖度分别增加了23.6%、35.1%和21.2%。火烧对禾本科草和非禾本科草盖度的作用受地形和氮素添加的影响。地形、火烧和氮素添加对植物盖度的影响主要受土壤水分调控。 2. 2005–2008 年，通过研究净初级生产力(NPP)对火烧、氮素添加和地形及其交互作用的响应，结果表明：半干旱草原的NPP 具有显著的年际变化。火烧后地上净初级生产力(ANPP)、地下净初级生产力(BNPP)和BNPP/ANPP 分别增加了12.8%、22.2%和14.9%。ANPP 的提高是由于火烧后禾本科植物(主要是羊草、冰草和针茅)生物量的增加。与之相反，火烧降低了非禾本科草，特别是冷蒿的生物量。氮素添加提高了ANPP (54.8%) ，对BNPP 没有影响，导致施氮肥后BNPP/ANPP 显著降低(33.4%)。禾本科草羊草、冰草和针茅以及非禾本科草唐松草生物量的增加，是氮素添加提高ANPP 的主要原因。坡下的ANPP 和BNPP 分别比坡上高14.1%和8.2%，但地形对BNPP/ANPP 没有影响。坡下ANPP 的提高主要是由于坡下禾本科草羊草、冰草以及非禾本科草唐松草、冷蒿的生物量高于坡上。氮素添加和地形影响ANPP 和BNPP/ANPP 对火烧的响应。火烧、氮素添加和地形对NPP 和植物碳分配39%–75%的综合效应可由这三个因素的简单加和效应来解释。 3. 通过研究2005 和2006 年生长季内土壤呼吸对地形、火烧和氮素添加的响应，结果表明：坡下的季节平均土壤呼吸比坡上高6.0%。春季火烧在整个生长季内促进土壤呼吸，平均增幅达23.8%。另外，火烧对土壤呼吸的效应受到季节和地形的影响。施用氮肥增加了11.4% 的土壤呼吸。火烧和地形对土壤呼吸的影响主要受土壤水分和植物生长的调控；而施氮肥后土壤呼吸的增加，主要是由于氮素添加促进植物生长后根系活性和呼吸的提高。 4. 2006–2007 年，通过对林地群落及其邻近草原生态系统土壤温度、土壤水分、土壤机械组成、地上和地下生物量、凋落物现存量、土壤碳氮储量、土壤呼吸、氮矿化和土壤微生物生物量的比较研究，结果表明：林地的土壤温度比草地低5°C，而其土壤水分却比草地高3.1%(绝对差异)。尽管林地(11,928.1 g m–2)和草地(11,362.2 g m–2)的土壤碳储量差异不显著，由于林地较高的植物生产力导致其碳储量高于草地。与草地相比，林地具有较高的凋落物现存量及碳氮含量、土壤无机氮含量、矿化氮的累积量、微生物生物量碳、微生物生物量氮、土壤呼吸和微生物呼吸。草地和林地的氮矿化速率没有显著差异。由地形因素引起的水分差异对于调控林地和草地生态系统碳氮库和循环(土壤碳氮储量、BNPP、矿化氮的累积量)具有重要作用。林地与草地生态系统碳储量的差异影响了我国北方草原地区碳的评估。

Effects of forage composition and growing season on methane emission from sheep in the Inner Mongolia steppe of China

Understanding the effects of dietary composition on methane (CH4) production of sheep can help us to understand grassland degradation resulting in an increase of CH4 emission from ruminant livestock and its resulting significance affecting CH4 source/sink in the grazing ecosystem. The objective of this study was to investigate the effect of forage composition in the diet of sheep in July and August on CH4 production by sheep in the Inner Mongolia steppe. The four diet treatments were: (1) Leymus chinensis and Cleistogenes squarrosa (LC), (2) Leymus chinensis, Cleistogenes squarrosa and concentrate supplementation (LCC), (3) Artemisia frigida and Cleistogenes squarrosa (AC), and (4) Artemisia frigida, Cleistogenes squarrosa and concentrate supplementation (ACC). CH4 production was significantly lower in July than in August (31.4 and 36.2 g per sheep-unit per day, respectively). The daily average CH4 production per unit of digestive dry matter (DM), organic matter (OM) and neutral detergent fiber (NDF) increased by 10.9, 11.2 and 42.1% for the AC diet compared with the LC diet, respectively. Although concentrate supplementation in both the AC and LC diets increased total CH4 production per sheep per day, it improved sheep productivity and decreased CH4 production by 14.8, 12.5 and 14.8% per unit of DM, OM and NDF digested by the sheep, respectively. Our results suggested that in degraded grassland CH4 emission from sheep was increased and concentrate supplementation increased diet use efficiency. Sheep-grazing ecosystem seems to be a source of CH4 when the stocking rate is over 0.5 sheep-units ha(-1) during the growing season in the Inner Mongolia steppe.

Effect of long-term grazing on soil organic carbon content in semiarid steppes in Inner Mongolia

To clarify the response of soil organic carbon (SOC) content to season-long grazing in the semiarid typical steppes of Inner Mongolia, we examined the aboveground biomass and SOC in both grazing (G-site) and no grazing (NG-site) sites in two typical steppes dominated by Leymus chinensis and Stipa grandis, as well as one seriously degraded L. chinensis grassland dominated by Artemisia frigida. The NG-sites had been fenced for 20 years in L. chinensis and S. grandis grasslands and for 10 years in A. frigida grassland. Above-ground biomass at G-sites was 21-35% of that at NG-sites in L. chinensis and S. grandis grasslands. The SOC, however, showed no significant difference between G-site and NG-site in both grasslands. In the NG-sites, aboveground biomass was significantly lower in A. frigida grassland than in the other two grasslands. The SOC in A. frigida grassland was about 70% of that in L. chinensis grassland. In A. frigida grassland, aboveground biomass in the G-site was 68-82% of that in the NG-site, whereas SOC was significantly lower in the G-site than in the NG-site. Grazing elevated the surface soil pH in L. chinensis and A. frigida communities. A spatial heterogeneity in SOC and pH in the topsoil was not detected the G-site within the minimal sampling distance of 10 m. The results suggested that compensatory growth may account for the relative stability of SOC in G-sites in typical steppes. The SOC was sensitive to heavy grazing and difficult to recover after a significant decline caused by overgrazing in semiarid steppes.

中国蒿属（Artemisia L.）花粉形态研究--兼论与其邻近属花粉形态的关系

本文利用电子显微镜和光学显微镜研究了国产的蒿属花粉代表种和常见种共66种4变种，根据花粉外壁纹饰可将其分为六大类型：1、具刺状突起，排列不密集，刺间具颗粒状纹饰（类型—I）。2、刺状突起较类型—I稍为密集，没有或有少许颗粒状纹饰（类型—II）。3、具刺状突起，排列不密集，但刺间无颗粒状纹饰，较粗糙（类型—III）。4、刺状突起较类型—I稍为密集，刺间具发育的小芽胞状或颗粒状纹饰，小芽孢状突起顶部有的还可见有一小穿孔存在（类型-IV）。5、具微刺状突起，排列极稀，刺间较为平滑（类型—V）。6、刺状突起有大小之分，大刺较尖，还有颗粒状纹饰（类型—VI）。其中类型—I占绝对优势，其次为类型—II，类型—V和类型VI为较特殊的类型。 本文还对蒿属邻近属（即蒿自然群中的其它属）各属代表种花粉作了详细的研究，并和蒿属花粉作了比较。结果表明：按外壁纹饰可将蒿自然群分为两大类型：1、具明显的刺状纹饰。其中包括：亚菊属、女蒿属、百花蒿属。2、具退化状小刺。其中包括：蒿属、茶蒿属、线叶菊属、画笔菊属、喀什菊属、栉叶蒿属、绢蒿属。经研究我们认为在花粉形态上蒿自然群是一相互关联的有机整体，并从花粉形态的角度出发，文中讨论了紊蒿属和百花蒿属的分属问题，作者认为它们独立成两个单种属的意见较为妥当。