抽穗后干旱复水对双季杂交晚稻产量形成和叶片δ13C及内源激素水平的影响

为探明生育后期干旱复水对双季杂交晚稻不同产量潜力品种产量的影响及其形成的生理机制,选择超级稻品种五丰优T025和对照品种金优207,于抽穗后进行干旱8d复水处理,分析了2个品种结实和产量、干旱前后倒二叶稳定碳同位素组成(δ13C)及内源激素含量的差异性。结果表明,干旱复水处理下2个品种水稻的结实率、千粒重及单株产量较对照(保持水层)表现出不同程度下降。其中,结实率五丰优T025和金优207分别下降12.07%和7.67%,千粒重下降5.23%和9.09%,单株产量下降13.54%和27.14%,差异均达显著或极显著水平,未发现产量补偿效应。抽穗后干旱处理下倒二叶δ13C值,五丰优T025大幅上升,复水后呈现出先下降,至第6天又开始上升的特点,金优207则大幅下降,复水后呈现先上升后下降再上升的特点,五丰优T025较金优207干旱复水处理与对照之间的差距更大。总体上,对照条件下,抽穗至其后20d,随生育推进,2个品种倒二叶内源ABA和GA₃含量呈上升而IAA含量则下降趋势,ZR表现出先上升再下降特点。干旱处理下2个品种表现为ABA含量上升,复水后呈先下降后上升特点,五丰优T025较金优207处理与对照之间差距更大;干旱复水处理条件下:2个品种IAA含量均下降,五丰优T025处理与对照间的差距明显小于金优207;五丰优T025 GA₃含量表现出先上升后下降再上升,金优207表现出干旱处理结束日急剧下降至最低点,复水后缓慢上升特点;2个品种ZR含量呈现出先上升至最高值再下降特点,五丰优T025较金优207处理与对照之间差距更小。抽穗后干旱处理将启动稻株体内抗衰老机制,复水后将在一定程度一定时间内激活稻株体内生长促进因子并抑制生长抑制因子,但其效果十分有限。     

基于耕地质量评价的基本农田划定方法

针对划定基本农田质量、数量的多重要求,以红兴隆垦区二九一农场为例,从耕地的自然质量条件、区位条件、耕地周围影响因素3个层面建立了一般农田划入基本农田的指标体系,并借助GIS技术提取各评价指标的空间属性数据;运用等间隔赋值法进行耕地的质量和区位的优劣排序;建立一种以耕地质量评价为基础的“按质定量”的基本农田划定方法。结果表明:二九一农场优质耕地所占比重较小,且分布较为分散。若使其基本农田保护率达到国家规定的指标,评价分值≥70分的耕地区域是理想的基本农田保护区。实证研究表明此种方法可以减少基本农田划定中人为因素的干扰,使得基本农田的划定更为科学合理。     

Dynamics of dissolved oxygen (DO) in ponded water of a paddy field

The transfer of heat and dissolved oxygen (DO) through water is important to understand the phenomenon of ponded water in a paddy soil. The heat from solar radiation is absorbed at the soil surface and transferred into the ponded water by convection. This study clarified the dynamics of DO, as well as the role of convection in water in DO transfer in the ponded water of a paddy field. DO concentration in the ponded water of a paddy field was measured in situ in the daytime and during the night. The results were confirmed in lab-scale model experiments. The DO concentration and temperature profiles in the ponded water of a lab-scale paddy field model were investigated under convective and non-convective conditions using solar radiation and infrared radiation, respectively. Under the ponded condition, solar radiation was absorbed at the soil surface whereas infrared radiation was absorbed at the water surface and thereby convective and non-convective conditions were generated, respectively. The diurnal variation in DO concentration was closely related to the intensity of solar radiation. Oxygen generation by micro-algae and its subsequent circulation by convection resulted in uniform DO concentration profiles, with super-saturated values in the ponded water in the daytime. Eventually oxygen was released to the atmosphere by deaeration until DO in water was depleted to the saturated level. During the night the oxygen moved from the atmosphere into the water surface by reaeration which depends on the oxygen deficit related to saturation. The oxygen deficit is caused by the respiration of microorganisms. The oxygen, that moved from the atmosphere to the water surface, was transferred to the soil surface by convection in the water layer. Thus convection plays an important role in the DO transfer in the ponded water of a paddy field. The DO dynamics is correlated with biological processes in the ponded paddy soil.     

Adsorption of Cr(VI) ion on synthetic hydrated oxides of iron

Abstract

The adsorption of Cr(VI) ion on synthetic hydrated oxides of iron (goethite (α-FeOOH) and lepidocrocite (γ-FeOOH)) with different crystallinities was studied in order to remove the Cr(VI) ion from polluted water. At pH 4.5, the amounts of the adsorbed Cr(V1) ion on goethite and lepidocrocite were 51.9 and 62.2 mmol g^?, respectively. Probably, this is due to the fact that the structure of lepidocrocite is more open than that of goethite. Lepidocrocite, therefore, is more effective for the removal of Cr( V1) ion from Cr(Vl)-contaminated and acidic groundwater and sewage.     

Asymmetric warming effects on N dynamics and productivity in rice (Oryza sativa L.)

Climate warming exhibits strong diurnal variations, with higher warming rates being observed at nighttime, which significantly affects rice (Oryza sativa L.) growth and grain yield. The objective of this study was to determine the effects of asymmetric warming (all-day warming, AW; daytime warming from 07:00 to 19:00, DW; nighttime warming from 19:00 to 07:00, NW, and a control, CK) on rice nitrogen (N) dynamics and productivity. Two rice bucket warming experiments were performed in Nanjing in Jiangsu Province, China, using the free air temperature increase (FATI) technique. The daily mean temperatures in the rice canopy in the AW, DW and NW plots were 2.0, 1.1 and 1.3ºC higher than those in the rice canopy in the CK plots, respectively. The results indicated that the total N accumulation of rice was 8.27–40.53% higher in the warming treatment than in the control during the jointing, anthesis and maturity stages. However, there was no significant difference detected among the three warming treatments. The warming treatment substantially decreased N translocation efficiency, leading to the retention of more N in the plant stems during grain filling. The warming treatment also decreased the N harvest index, N utilization efficiency based on grain yield and N utilization efficiencies based on biomass in both growing seasons. The warming treatment significantly increased the aboveground biomass (9.26–16.18%) in the jointing stage but decreased it (2.75–9.63%) in the maturity stage. Although DW increased the carbon (C) gain by photosynthesis and NW increased the C loss by night respiration, the daytime higher-temperature treatment affected rice photosynthesis and reduced its photosynthetic rate and product. This effect may be one of the primary reasons for the insignificant difference in the aboveground biomass between the DW and NW treatments. In the AW, DW and NW plots, the grain yield was reduced by an average of 10.07, 5.05 and 7.89%, respectively, across both years. The effective panicles and grains per spike tended to decrease in the warmed plots, whereas irregular changes in the 1000-grain weight were observed. Our results suggest that under the anticipated climate warming, rice productivity would further decline in the Yangtze River Basin.     

分选加工中稻米垩白自动检测算法

林地利用变化会对森林固碳总量产生一定的影响,林地利用过程碳汇效率可以从投入产出解释不同林地利用类型的固碳效应,以帮助实现林地利用结构最优时碳汇产出水平的最大化。该文基于区域的视角,通过选用数据包络分析方法（data envelopment analysis,DEA）的C2R-I模型,将不同类型的林地利用数量作为投入,将森林固碳总量作为最终产出,结合全面的历史统计资料查证与实地校验,对杭州市域林地利用过程碳汇效率进行了测度与实证研究。研究结果表明：杭州市域林地利用过程碳汇效率发展不平衡,各县市区之间差距较大,并且碳汇效率的空间分布与各县市区经济发展水平之间存在一定的反向关联性。而根据"土地利用、土地利用变化及林业（land use, land-use change and forestry,LULUCF）"指南和"复杂系统数据包络分析（complex system data envelopment analysis,CSDEA）"转化法则,提高不同林地利用类型的单位面积蓄积量,充分考虑本地区的城市化水平与森林自然度状况,将是影响区域林地利用过程碳汇效率优化的3个重要因素。文章最后给出了包含这3个影响因素的投入产出优化计量模型。模型计算结果表明,杭州市域"造林再造林"投入优化可增加蓄积量3 279.68 m3/a,"森林管理"投入优化可增加蓄积量2 9871.23 m3/a,"森林采伐"投入优化可增加蓄积量111 959.19 m3/a,"森林固碳"产出优化可增加固碳总量7.61 Tg/a。文章结论不仅对区域林地利用过程的碳汇效率研究具有理论贡献,而且可以从碳循环调控的角度为区域低碳经济发展的模式选择与发展战略提供参考。     

Roughness of biopores and cracks in Bt‐horizons assessed by confocal laser scanning microscopy

In structured soils, water and reactive solutes can preferentially move through larger inter‐aggregate pores, cracks, and biopores. The surface roughness of such macropores is crucial for describing microbial habitats and the exchange of water and solutes between macropores and the soil matrix together with other properties. The objective of this study was to compare the roughness of intact structural surfaces from the Bt‐horizons of five Luvisols developed on loess and glacial till and to test the applicability of confocal laser scanning microscopy. Samples of 5 to 10 cm edge length with intact structural surfaces including cracks with and without clay‐organic coatings, earthworm burrow walls, and root channels were prepared manually. The surface roughness of these structures was determined with a confocal laser scanning microscope of the type Keyence VK‐X100K. The root‐mean‐squared roughness (R_q) the curvature (R_cu) and the ratio between surface area and base area (R_A) were calculated from selected surface regions of interest of 0.342 mm² with an elevation resolution of 0.02 µm. The roughness was smaller for coated as compared to uncoated cracks and earthworm burrows of the Bt‐horizons. This reduction of roughness by the illuviation of clayey material was similar for the structural surfaces of the coarser textured till‐Bt and the finer‐textured loess‐Bt. This similarity suggested a dominant effect of pedogenesis and a minor effect of the parent material on the roughness levels of structural surfaces in the Bt‐horizons. An expected “smoothing” effect of burrow wall surfaces by earthworm activity was not reflected in the roughness values compared to those of uncoated cracks at the chosen spatial scale. However, for root channel walls from one loess‐Bt, the roughness was reduced as compared to that of other structures. These results suggest that the surface roughness of the structural surface types should separately be considered when describing preferential flow and macropore‐matrix exchange or analysing root growth, microbial habitats, and colloidal transport in structured soils. The confocal laser scanning microscopy technique was found useful for characterizing the roughness of intact structural surfaces.     

水耕人为土磁性矿物的生成转化机制研究回顾与展望

随着环境问题的日益突出,人为活动对土壤的影响越来越深刻,需加强对"人为作用"的研究以便解释现代土壤磁性的过程和变化。水耕人为土在发育过程中人为作用的方式多种多样,明确其磁性矿物的生成和转化机制及其影响因素有利于理解人为活动对现代土壤磁性的作用。但目前水耕人为土磁学研究还比较零散,缺乏系统性,已有研究结果有待深入梳理。本文对已有的相关研究报道,包括水耕人为土磁性参数的演变特征、磁性矿物的生成转化机制以及对成土因素的响应等进行综合评述。最后,对当前研究的不足和存在问题进行总结,并对研究方向进行了展望,以期有助于环境磁学的发展。     

化控剂对冬小麦茎秆抗倒性能、植株整齐度及产量的影响

2008/2009、2009/2010年度两个冬小麦生长季分别在田间设置3个化控处理试验,于冬小麦起身期（3月1日前后）进行喷雾处理,处理1喷多效唑（PP333,15%粉剂）、处理2喷矮壮素（CCC,50%水剂）,用量分别为600g·hm-2和1000mL·hm-2,处理3将多效唑和矮壮素浓度减半并复配后进行喷施（P+C）,以喷清水为对照（CK）,于乳熟期对不同处理小麦的株高、重心高度、基部第二节间长度、直径、厚度、充实度和机械强度及小麦基部第二节间的木质素含量、纤维素含量、含氮量和碳氮比（C/N）进行观测,于成熟期调查各小区实际倒伏面积,计算抗倒指数和倒伏率,通过考种分析小麦产量和植株整齐度的关系。结果表明：在控制株高、基部第2节间长度和重心高度以及增加基部第2节间直径、厚度、充实度和机械强度方面,P+C处理最优,其次为PP333和CCC处理。在反映基部第2节间抗倒性能的生化指标如纤维素含量、木质素含量、C/N和含氮量指标方面,也以P+C最优,PP333次之,CCC较差。在抗倒伏方面,P+C处理的抗倒指数最高,田间未出现倒伏现象,其次为PP333处理,田间亦未出现倒伏,CCC抗倒指数最低,2008/2009和2009/2010年度两个小麦生长季田间倒伏率分别达到11.3%和6.7%。在大田长势均匀度方面,P+C处理的作用最强,显著高于CK,其次为PP333,CCC略差。在产量方面看,也表现出同样的规律,而且各处理小麦株高、穗长、每穗小穗数、穗重整齐度与产量间均呈极显著正相关关系。说明多效唑与矮壮素配合施用处理可显著提高大田小麦的长势均匀度并进而提高产量。     

T-M水量平衡模型在流域产流计算中的应用

[目的]旨在通过研究流域各月度产水量,对水资源管理和农业灌溉用水调度进行指导。[方法]以锦阳川流域为研究对象,运用遥感(remote sensing,RS)和地理信息系统(geographic information system,GIS)提取和处理空间土地利用、土壤及数字高程模型数据,结合降雨、气温及不同植物的根深数据,采用Thornthwaite and Mather(T—M)模型计算了水分亏缺与剩余,土壤水分补给与利用的周期及月度产流量。[结果]研究区2011年平水年全年总径流量为281.0mm,在1,3—4,6和10月,存在水分亏缺及土壤水分利用,面积加权的水分亏缺值为5.8mm;2月,11—12月降水对土壤水分进行补给;5和7—9月,存在水分剩余,面积加权的剩余值为286.2mm。丰水年(25%)、平水年(50%)和枯水年(75%)多年平均产水量分别为8.3×107,4.8×107及2.2×107 m3。[结论]研究区在丰水年(25%)的2,7—11月,平水年(50%)的2—3,7—9月和枯水年(75%)的12—2,7—9月存在水分剩余。