近50年中国东部林区最高气温序列

运用线性回归插补途径和RHtest方法分别对1961-2010年我国东部林区853个站点的日最高气温资料进行插补和均一化检验订正,建立完整且均一的日最高气温数据集.在此基础上,对比分析我国东部林区近50年来最高气温订正前后的变化特征.结果表明:订正后东部林区年及四季(春、夏、秋、冬)平均最高气温每10年分别增加0.171,0.233,-0.002,0.201和0.263℃,订正后整个区域年平均最高气温均呈上升趋势,而订正前有部分站点呈降温趋势;春、秋、冬3季平均最高气温在整个林区几乎全部呈现上升趋势,夏季东部林区多数站点呈降温趋势,尤其是长江和黄河流域之间的区域.     

沙地不同密度樟子松林地土壤水分的垂直变化

通过在辽宁省章古台试验区对沙地不同密度樟子松林地土壤水分垂直变化规律的研究,结果表明:该地区樟子松林分不论密度大小,雨季土壤含水量整体上明显高于春季;不同林分密度的樟子松林土壤水分含量在不同时期不同层次有所不同,春季试验地各层土壤的含水量从上到下大体上呈下降趋势,北试验地0～60cm层次土壤含水量下降的比较明显,南试验地在60～100cm层次间出现了急剧下降的情况;雨季0～40cm土层间,试验地土壤水分含量都呈上升趋势,40～150cm这几个层次间,试验地土壤含水量均呈下降趋势,且在40～100cm的层次上2试验地下降的幅度都比较大。     

渭北旱塬核桃经济林径流林业技术应用研究

针对渭北旱塬地区干旱少雨的气候条件,布设试验样地,采取不同覆盖材料和集水整地措施,从土壤温度、含水量等方面分析其对核桃经济林造林的影响。结果表明,造林时采取一定的微型集水工程和覆盖措施,在集流节水、抑制蒸发和保蓄土壤水分等方面是有效的,薄膜、麦秸和杂草3种覆盖材料中,以薄膜覆盖集水效果最好,含水量达到21．74％,对0～20 cm土层增温效果明显,能够显著提高造林成活率,从而提高核桃经济林的产量和质量。     

超级稻宁粳1号与常规粳稻CH4排放特征的比较分析

以超级稻宁粳1号和常规稻镇稻11为材料,采用盆栽试验,系统比较了两个品种的生产力及CH4排放的差异,并分析了其主要原因。结果表明,虽然两个品种的CH4排放通量的动态特征和生物学产量均基本相似,但宁粳1号的CH4排放总量比镇稻11低35.22%(P<0.05),土壤水溶液中CH4平均浓度也低41.31%(P<0.01)。两个品种的CH4排放差异主要出现在水稻生长中期,前期和后期的差异不明显。比较两个品种的生物学产量、株高、叶面积、根系等生长特性,发现宁粳1号强大的根系是降低CH4排放的最关键因素。综合比较植株生产力和CH4排放强度,发现宁粳1号不仅具有更高产量,而且单位干物质和籽粒产量的CH4排放量均分别比镇稻11低42.42%和81.38%(P<0.05)。上述结果显示,水稻产量的提高不一定伴随CH4排放的增加,选育高产低排放的水稻品种是可能的。大面积推广应用超级稻,可能不仅利于粮食安全,也有利于温室气体减排。     

施肥对全膜双垄沟播玉米土壤养分动态变化的影响

采用大田随机区组试验法,研究了不同施肥水平下全膜双垄沟播玉米土壤有机质、全氮、全磷、碱解氮和速效磷的动态变化情况。结果表明:整个玉米生育时期0～20cm土层各处理的土壤有机质、全氮、全磷、碱解氮和速效磷变化趋势与20～40cm土层基本一致。土壤有机质和碱解氮含量随着玉米生育时期的推进而不断降低,且分别在抽雄期和灌浆期达到最低值,成熟期有机质和碱解氮含量又略有回升。全磷含量从苗期到成熟期逐渐降低。全氮和速效磷含量在玉米生长前期不断增加,且分别在抽雄期和拔节期达到最大值,之后随着生育期的推进而不断降低。两个土层的土壤养分含量存在着明显的垂直递减规律。西北干旱半干旱地区全膜双垄沟播玉米种植密度确定为6.75×104株/hm-2时,最佳施肥量为纯N 210kg/hm2、P2O5168kg/hm2。     

不同种类牧草对山羊瘤胃挥发性脂肪酸变化规律的研究

研究山羊瘤胃内放入装有不同种类牧草的尼龙袋后,瘤胃挥发性脂肪酸浓度的动态变化规律。选用带有瘤胃瘘管的山羊为实验动物,结合尼龙袋法测定3类牧草在山羊瘤胃中的挥发性脂肪酸浓度。结果表明,添加装有不同牧草的尼龙袋后,山羊瘤胃乙酸、丙酸、丁酸、总挥发性脂肪酸（TVFA）浓度及乙酸／丙酸值均呈先上升后下降的规律,并在4h达到峰值,其中乙酸浓度约为70．49％、丙酸浓度约为15．38％,瘤胃的发酵类型总体上偏向于乙酸-丙酸型．3类牧草均适用于山羊的科学饲养。由此可见,添加装有不同种类牧草的尼龙袋均会对山羊瘤胃挥发性脂肪酸产生影响,其原因主要与原料的蛋白质含量有关。     

Climate Change Impacts Due to Biogenic Carbon: Addressing the Issue of Attribution Using Two Metrics With Very Different Outcomes

Although not without its critics, considerable recognition has been given to the climate cooling benefits provided by storing carbon from biomass in various storage pools. However, it has recently been found that depending on the storage pool/period and source of biomass, the associated climate impacts may be a burden or a benefit. It is important that carbon accounting schemes and life cycle assessment practitioners take these carbon/CO₂ flux dynamics and the climate impacts that they create into consideration. In this work we illustrate these climate impacts with a Norwegian case study using a material flow analysis of the biogenic carbon in harvested wood products derived from a 2006 harvest year. We illustrate the dynamic carbon balance over time and show how the climate impacts can diverge greatly between two well-known climate impact metrics: global warming potential (GWP) and global temperature potential (GTP). We also show how these climate impacts can be attributed to contributing parties with an example of a glue laminated beam value chain which is stored in a long-lived building. We discuss the associated attribution issues that will inevitably arise and we offer recommendations on how best to minimize them.     

Lasiodiplodia species associated with dying Euphorbia ingens in South Africa

Various species of Euphorbia occur in South Africa, including herbaceous, succulent and woody types. The largest of the succulent Euphorbia spp. in South Africa is Euphorbia ingens. These trees have been dying at an alarming rate in the Limpopo province during the course of the last 15 years. Investigations into the possible causes of the death have included the possible role of fungal pathogens. Amongst the fungi isolated from diseased trees were species in the Botryosphaeriaceae. The aim of this study was to identify these fungi using morphology and DNA sequence data of two gene regions (TEF 1-α and ITS). Results showed that Lasiodiplodia theobromae and L. mahajangana were present, representing the first report of Lasiodiplodia species on a succulent Euphorbia species. Pathogenicity studies showed that these Lasiodiplodia species can cause infections on healthy E. ingens trees, implicating them as contributors to the decline of E. ingens.     

气候变化对黄山区域生物多样性保护的影响与对策

以黄山区域自然保护区为研究对象,利用黄山50年气象观测数据分析气候变化趋势和主要特征,总结、分析、评估与预测气候变化对生物多样性的影响和潜在威胁。结果表明：①50年来黄山区域年均气温总体呈上升趋势,气候正趋变暖,但局部期间也有震荡现象。特别是20世纪90年代以来,气温升高比较显著;②黄山年降水总趋势呈波动性减少,减少率为-2．28mm／年。上世纪90年代以后,降水偏多,21世纪初降水显著偏少;近20年来极端天气发生频繁,未来有些极端事件的发生频数还可能会更高。③气候变暖会加剧病虫害的流行及黄山森林的脆弱性,改变森林结构与分布,致使多数森林群落生产力趋于下降,使动、植物物候产生了不同程度的响应。气温升高和降水模式的变化可能导致松材线虫等外来物种产生快速扩散与大规模入侵,致使黄山松受到严重威胁。     

The Potential Effect of Climate Change and Elevated Air Carbon Dioxide on Agricultural Crop Production in Central and Southeastern Europe

SUMMARY

The vulnerability and adaptation of major agricultural crops to different soils in Austria and Bulgaria under a changing climate and elevated air CO₂ were investigated. Several incremental and transient GCM climate change scenarios were created and applied. Warming will decrease the crop-growing duration of the selected crops in the regions of interest. All GCM scenarios, including the climate change effect only, projected reductions in grain yield of winter wheat and spring barley, caused by a shorter crop-growing period. However, when the direct effect of an increased CO₂ level was assumed, most GCM climate change scenarios projected an increase in wheat and barley yield and especially in soybean yield. An increased level of CO₂ alone had no significant impact on the simulated maize yield reductions under climate change.