不同施氮水平下灌水量对小麦水分利用特征和产量的影响

在田间高产条件下,研究了不同施氮水平［180 kg·hm^-2（N₁₈₀）和240 kg·hm^-2（N₂₄₀）］下灌水量对小麦耗水特征和旗叶水分生理特性及产量的影响.结果表明：不灌水的W₀处理100 cm以下土层的土壤贮水消耗量低于各灌水处理,W₁（灌底墒水60 mm）和W₂（灌底墒水和拔节水各60 mm）处理100～200 cm土层和0~200 cm土层土壤贮水消耗量高于W₃（灌底墒水、拔节水和开花水各60 mm）处理;N₂₄₀处理0～80 cm土层土壤贮水消耗量、开花至成熟阶段耗水模系数和农田耗水量高于N_180. W₂和W₃处理灌浆中后期旗叶相对含水量和水势高于W₀和W₁处理;灌浆后期旗叶相对含水量和水势为N₂₄₀W₀和N₂₄₀W₁处理分别高于N₁₈₀W₀和N₁₈₀W₁处理,N₂₄₀W₂和N₂₄₀W₃处理与N₁₈₀W₂和N₁₈₀W₃处理之间无显著差异.施氮180 kg·hm^-2,底墒水和拔节水分别灌60 mm的W₂处理籽粒产量、水分和氮素利用效率高,农田耗水量较低;增加灌水量,籽粒产量无显著变化,农田耗水量增高,土壤贮水消耗量、水分利用效率、灌溉水利用效率和灌溉效益降低.     

Responses of four arid zone grass species from varying habitats to drought stress

The effects of 4 or 8 drought cycles on four grass species,Cenchrus pennisetiformis, Leptochloa fusca, Panicum turgidum, andPennisetum divisum were assessed in a pot experiment. There were significant differences between the species in biomass production under water stress.C. pennisetiformis andP. turgidum produced significantly greater fresh and dry matter thanP. divisum and especially thanL. fusca. L. fusca had the lowest andP. divisum highest osmotic potentials compared with the other species after the completion of 4 or 8 drought cycles. Osmotic adjustment (difference between osmotic potential of droughted/rehydrated plants and control plants) was highest inL. fusca. The stomatal conductance was significantly decreased with increased drought stress inC. pennisetiformis. The elasticity ofC. pennisetiformis, P. turgidum andP. divisum increased with increase in number of drought cycles, whereas that ofL. fusca remained unchanged.L. fusca andP. turgidum had the lowest leaf hydration of all species after 8 drought cycles. The chlorophyllsa andb in all species remained unaffected by drought treatments. The proline content ofC. pennisetiformis andL. fusca increased significantly with increased drought stress, whereas that ofP. turgidum remained unaffected after 4 or 8 drought cycles.L. fusca synthesized great amount of leaf soluble proteins during 8 drought cycles, whereasP. divisum had low protein content after 4 drought cycles. The protein contents ofC. pennisetiformis andP. turgidum remained unaffected after 8 drought cycles. The leaf epicuticular wax ofL. fusca increased consistently with increased drought stress, but leaf wax ofP. divisum increased only at the highest drought stress and that ofC. pennisetiformis andP. turgidum increased after 4 drought cycles. On the basis of these results it was established thatC. pennisetiformis andP. turgidum were the most tolerant,P. divisum intermediate, andL. fusca the most sensitive to drought stress. The osmotic adjustment did not positively correlate with the degree of drought resistance.     

Effects of straw mulching on soil temperature, evaporation and yield of winter wheat: field experiments on the North China Plain

Straw mulching is an effective measure to conserve soil moisture. However, the existence of straw on the soil surface also affects soil temperature, which in turn influences crop growth, especially of winter crops. Five‐year field experiments (2000–2005) investigated the effects of straw mulching and straw mass on soil temperature, soil evaporation, crop growth and development, yield and water use efficiency (WUE) of winter wheat (Triticum aestivum L.) at Luancheng Station on the North China Plain. Soil is a moderately well‐drained loamy soil with a deep profile at the station. Two quantities of mulch were used: 3000 kg ha^?1 [less mulching (LM)] and 6000 kg ha^?1 [more mulching (MM)], representing half and all of the straw from the previous crop (maize). In the control (CK), the full quantity of mulch was ploughed into the top 20 cm of soil. The results showed that the existence of straw on the soil surface reduced the maximum, but increased the minimum diurnal soil temperature. When soil temperature was decreasing (from November to early February the next year), soil temperature (0–10 cm) under straw mulching was on average 0.3°C higher for LM and 0.58°C higher for MM than that without mulching (CK). During the period when soil temperature increased (from February to early April, the recovery and jointing stages of winter wheat), average daily soil temperature of 0–10 cm was 0.42°C lower for LM and 0.65°C lower for MM than that of CK. With the increase in leaf area index, the effect of mulching on soil temperature gradually disappeared. The lower soil temperature under mulch in spring delayed the development of winter wheat up to 7 days, which on average reduced the final grain yield by 5% for LM and 7% for MM compared with CK over the five seasons. Mulch reduced soil evaporation by 21% under LM and 40% under MM compared with CK, based on daily measuring of microlysimeters. However, because yield was reduced, the overall WUE was not improved by mulch.     

Hunting and Plant Community Dynamics in Tropical Forests: A Synthesis and Future Directions

This synthesis builds on the preceding articles of this Special Section and has three goals. We first review the nascent literature that addresses indirect effects of hunting for tropical forest plant communities. Next, we highlight the potential indirect effects of hunting for other groups of organisms. Our final goal is to consider what could be done to ameliorate the demographic threats to harvest-sensitive game species caused by unsustainable hunting. Three conclusions are possible at this time concerning the impact of hunting for tropical forest plant communities: (1) Hunting tends to reduce seed movement for animal-dispersed species with very large diaspores; (2) Hunting reduces seed predation by granivorous vertebrates for species with large seeds; and (3) Hunting alters the species composition of the seedling and sapling layers. The cascading effects of hunting are already known to affect bruchid beetles and dung beetles and are likely to affect other, nongame taxa. To ameliorate these problems, several lines of research should be further explored to facilitate the development of game management plans including: (1) alternative use of sources of animal protein; (2) income supplementation for local people from sources other than wild meat; (3) outreach and extension activities for communities; (4) recognition and facilitation of the shifting of attitudes towards hunting; (5) implementation of community-based wildlife management programs in regulated-use areas such as extractive reserves; and (6) landscape-scale conservation planning that maximizes the source-sink dynamics of harvested and unharvested game populations and enforces game regulations in strictly protected areas.     

Effects of local and landscape scale and cattle grazing intensity on Orthoptera assemblages of the Hungarian Great Plain

The aims of this study were to test the influence of grazing intensity, effects of local and landscape parameters, and regional effects on orthopteran assemblages. We made our investigations on extensively and intensively grazed cattle pastures in three regions of the Hungarian Great Plain. The regions differed in landscape complexity; one region was situated in a structurally simple landscape with large landscape units, one in a structurally complex landscape with marshy patches and trees in the grasslands and one in a landscape with intermediate structural complexity. In each region we had seven pairs of differently managed grasslands, which differed in grazing intensity. Grasshoppers were recorded once in July 2003 using sweepnet catches and visual and acoustic observations in two 95 m long transects at each site (84 transects in total). Botanical surveys and measurements of other local factors were also made for each transect. After samplings, we digitised the most important land-use types using aerial photographs to produce landscape scale parameters within 100 and 500 m circles around every site. Analysing the management, regional, landscape and local effects on species richness with linear mixed models, we showed only strong significant regional differences. Linear mixed models for Orthoptera abundance yielded significant regional effects and marginal management effects. However, after including local and landscape parameters in a separate model a marginal local effect was found instead of a management effect in addition to the significant regional effect. Logistic regression models of 15 species also revealed the importance of local factors, particularly the importance of grass height, which is highly dependent on grazing intensity. We conclude that management intensity has indirect effects on Orthoptera species richness and abundance. Landscape scale parameters are also important, at least for some species.     

湿地生态旅游研究进展

湿地富有生物多样性和文化多样性,具有较高的旅游价值、环境教育功能及社区参与功能,湿地生态旅游体现了旅游经济与湿地保护的可持续协调发展,目前已引起国内外政府和学者的普遍关注. 本文对国内外相关研究理论和实践进行了总结,对湿地生态旅游的研究意义、进程、内容、方法和结果等进行了综述,并对湿地生态旅游研究进行了展望,以期推动湿地生态旅游研究的发展,为湿地及相关旅游区的资源开发、环境保护和科学管理提供参考.     

长叶红砂主要水分参数随季节和生境的变化

运用压力容积(PV)技术,研究了4种盐分生境下长叶红砂饱和含水量时最大渗透势(Ψ_s^sat) 、初始质壁分离时的渗透势(Ψ_s^tlp)、初始质壁分离时渗透水相对含量(ROWC^tlp)、初始质壁分离时的相对含水量(RWC^tlp)、质外体水的相对含量(AWC) 、束缚水与自由水的比值(V_a/V_o) ,以及饱和含水量时最大渗透势与初始质壁分离时的渗透势之差(ΔP)的季节变化.结果表明：长叶红砂的主要水分参数Ψ_s^sat、Ψ_s^tlp值为5月＞7月＞9月,AWC、V_a/V_o 和ΔP值表现为5月＜7月＜9月.说明长叶红砂在季节变化中历经了逆境锻炼,其耐水分亏缺能力随5、7、9月逐渐递增,这与植物的生长发育节律相吻合;与其他荒漠旱生植物相比,长叶红砂的Ψ_s^sat和Ψ_s^tlp值非常低,具有很强的忍耐高渗压和维持低水势的能力.以3个月份4种不同生境所测水分参数值为基础,运用模糊数学隶属函数法对不同生境长叶红砂耐水分亏缺能力进行综合评价,得出重盐土＞非盐渍土＞盐渍土.     

调亏灌溉对冬小麦耗水特性和水分利用效率的影响

以高产中筋冬小麦品种济麦22为材料,在山东兖州小孟镇史王村进行田间试验,研究了调亏灌溉对冬小麦耗水特性和水分利用效率的影响.结果表明：在全生育期降水228 mm条件下,W₁（土壤相对含水量：播种期80%+拔节期70%+开花期70%）和W₄（土壤相对含水量：播种期90%+拔节期85%+开花期85%）处理总耗水量高于W₀（土壤相对含水量：播种期80%+拔节期65%+开花期65%）、W₂（土壤相对含水量：播种期80%+拔节期80%+开花期80%）和W₃（土壤相对含水量：播种期90%+拔节期80%+开花期80%）处理,W₁和W₄处理间无显著差异;W₁处理增加了0～200 cm土层土壤贮水消耗量,降低了小麦拔节至开花期的耗水模系数,提高了开花至成熟期的耗水模系数;W₄处理在开花至成熟期、拔节至开花期的耗水量和耗水模系数均较大.调亏灌溉条件下,W₀处理水分利用效率较高,但产量最低;随灌溉量增加,其他处理水分利用效率呈先增加后降低的趋势.耗水量最高的W₁和W₄处理产量也最高,W₁处理灌溉水利用效率和灌溉效益均高于W₄处理,为本试验条件下高产节水的最佳处理.     

北京野生水鸟迁徙规律及其监测策略初探

2005年全球暴发的禽流感疫情备受世界关注,候鸟带毒且野生水鸟是禽流感病毒的天然储库已被世界公认,我国野生动物疫源疫病监测工作已被提到重要议事日程.通过对2006～2008年监测数据的分析,发现北京市野生水鸟春季迁徙从2月下旬开始,4月初达到迁徙高峰;9月下旬开始秋季南迁,11月下旬达到迁徙高峰.并分别对北京地区雁鸭类、鹬鸻类、鹭类的迁徙规律进行了分析;根据北京的气候特点分析了野生水鸟的分布和迁徙特点;根据禽流感病毒与温度的关系,提出了北京的重点监测时期及物种.     

Role of FtsH2 in the repair of Photosystem II in mutants of the cyanobacterium Synechocystis PCC 6803 with impaired assembly or stability of the CaMn4 cluster

The FtsH2 protease, encoded by the slr0228 gene, plays a key role in the selective degradation of photodamaged D1 protein during the repair of Photosystem II (PSII) in the cyanobacterium Synechocystis sp. PCC 6803. To test whether additional proteases might be involved in D1 degradation during high rates of photodamage, we have studied the synthesis and degradation of the D1 protein in ΔPsbO and ΔPsbV mutants, in which the CaMn₄ cluster catalyzing oxygen evolution is less stable, and in the D1 processing mutants, D1-S345P and ΔCtpA, which are unable to assemble a functional cluster. All four mutants exhibited a dramatically increased rate of D1 degradation in high light compared to the wild-type. Additional inactivation of the ftsH2 gene slowed the rate of D1 degradation dramatically and increased the level of PSII complexes. We conclude that FtsH2 plays a major role in the degradation of both precursor and mature forms of D1 following donor-side photoinhibition. However, this conclusion concerned only D1 assembled into larger complexes containing at least D2 and CP47. In the ΔpsbEFLJ deletion mutant blocked at an early stage in PSII assembly, unassembled D1 protein was efficiently degraded in the absence of FtsH2 pointing to the involvement of other protease(s). Significantly, the ΔPsbO mutant displayed unusually low levels of cellular chlorophyll at extremely low-light intensities. The possibilities that PSII repair may limit the availability of chlorophyll for the biogenesis of other chlorophyll-binding proteins and that PsbO might have a regulatory role in PSII repair are discussed.