涡度相关观测的能量闭合状况及其对农田蒸散测定的影响

涡度相关法被认为是测定农田蒸散量的标准方法。然而,能量不闭合现象在涡度相关测量中普遍存在。分析能量不闭合对涡度相关观测的影响,对于提高涡度相关观测精度具有重要意义。以蒸渗仪法为参照,探讨涡度相关观测的能量闭合状况对农田蒸散测定的影响,在导致涡度相关观测能量不闭合的诸多因素中,寻找对蒸散测定有影响的因素。结果表明:涡度相关观测的白天能量平衡比率(EBR)呈秋冬高、春夏低的变化特征,麦季日均EBR范围在0.26—2.84之间,平均1.15;玉米季日均EBR范围在0.19—2.59之间,平均0.78。无论麦季或玉米季,涡度相关法测定的平均蒸散量(ETec)均明显低于蒸渗仪法观测值(ETL),但两者显著相关(P<0.01),并有相似的季节变化。平均蒸散比(ETec/ETL)麦季约为0.61,玉米季约为0.50。在冬小麦田和夏玉米田,ETec/ETL均与EBR显著相关(P<0.01)。麦田种植密度大,下垫面较均匀,蒸散比与EBR成正比(P<0.01),且不受叶面积指数(LAI)大小影响;反之,玉米田种植密度小,只有当LAI>1,下垫面变得较均匀后,蒸散比与EBR的关系才变得显著(P<0.01)。风速小时ETec/ETL与EBR显著相关,风速增加时二者相关性减弱。尤其在玉米田,当摩擦风速(u*)大于0.3 m/s时,ETec/ETL与EBR的相关性不再显著。风速小时,大气湍流微弱,湍流的涡旋较大。在有限的观测时段(0.5h)内,涡度相关仪的传感器难以捕捉足够的湍涡能量,所测湍流能量偏低,导致能量不闭合。以上结果为应用能量平衡比率校正农田蒸散提供了可能途径。     

内蒙古伊金霍洛旗农业生产力的评估与预测

运用伊金霍洛旗40年的气象与农业统计资料,分析了气候与化肥使用量对于粮食产量的综合影响．选取综合模型为基础,将化肥对粮食气候生产潜力的影响考虑为调节因子,建立了基于气候和化肥使用量的粮食产量评估模型．同时,基于伊金霍洛旗地区人口、气候以及化肥的未来变化情景,预测了未来30年的粮食需求增长量,指出在满足当地人民对粮食作物基本需求的基础上,从目前到2010年期间退耕面积达622～5948hm^2,相当于原有耕地的3％～31％;从2010年到2020年期间退耕面积最大,达3263～8164hm^2,相当于原有耕地的17％42％;随后10年由于土地单位面积的增产是有限度的,而人口继续增长,将导致耕地面积有所回升,但变动幅度不会太大,基本维持在2020年的水平。     

Calibration of Terra/MODIS gross primary production over an irrigated cropland on the North China Plain and an alpine meadow on the Tibetan Plateau

This paper evaluated the MODerate resolution Imaging Spectroradiometer (MODIS) gross primary production (GPP) product (MOD17) by using estimated GPP from eddy‐covariance flux measurements over an irrigated winter wheat and maize double‐cropping field on the North China Plain in 2003–2004, and an alpine meadow on the Tibetan Plateau in 2002–2003. The mean annual GPP from MOD17 accounted for 1/2–2/3 of the surface estimated mean annual GPP for the alpine meadow, but only about 1/5–1/3 for the cropland. This underestimation was partly attributed to low estimates of leaf area index by a MODIS product (MOD15) because it is used to calculate absorbed photosynthetically active radiation in the MOD17 algorithm. The main reason is that the parameter maximum light use efficiency (ε_max) in the MOD17 algorithm was underestimated for the two biomes, especially for the cropland. Contrasted to the default, ε_max was optimized using surface measurements. The optimized ε_max for winter wheat, maize and meadow was 1.18, 1.81 and 0.73 g C/MJ, respectively. By using the surface measurements and optimized ε_max , the MOD17 algorithm significantly improved the accuracy of GPP estimates. The optimum MOD17 algorithm explained about 82%, 68%, and 79% of GPP variance for winter wheat, maize, and meadow, respectively. These results suggest that it is necessary to adjust the MOD17 parameters for the estimation of cropland and meadow GPP, particularly over cropland.     

黄土高原丘陵区退耕还林地油松人工林碳储量及分配特征研究

以黄土高原丘陵区主要退耕还林树种油松为研究对象,对甘肃省庆阳市合水县采用样地调查与生物量实测方法,分析不同坡向（阳坡、阴坡）及退耕年限（退耕6年、9年和12年）油松人工林的乔木不同器官、灌草层、枯落物层和土壤层的碳含量,以及油松人工林乔木层、灌草层、枯落物层和土壤层碳储量及其分配特征,探讨甘肃黄土高原丘陵区生态林的固碳作用。结果表明:（1）油松不同器官碳含量为48.15%~53.90%,各器官碳含量大小为树干>叶>细枝>粗枝>根桩>粗根>树皮>大根>中根>小根>细根>球果;灌木层碳含量为茎>叶>根;草本层碳含量为地上部分>地下部分。（2）油松人工林的枯落物层碳含量为未分解层大于半分解层。（3）0~100 cm土壤层的碳含量随退耕年限增加而增大,随土壤深度的增加而下降;0~10 cm、10~20 cm土壤层不同坡向间碳含量差异显著。（4）阳坡和阴坡退耕6年、9年和12年油松林总碳储量分别为42.90、50.50、59.22 t·hm^-2和45.08、53.77、65.70 t·hm^-2。研究认为,黄土高原丘陵区阳坡和阴坡均适宜油松林发挥固碳效益,且阴坡要优于阳坡,是甘肃黄土高原丘陵区的理想树种。     

不同植被类型对土壤水蚀的影响

不同植被类型对土壤水蚀的影响因子是计算土壤水蚀速率以及选择适当土地利用方式的基本参数.本文以土壤侵蚀模型中的植被因子(C因子)为指标,研究不同植被类型对土壤水蚀的影响.根据6个水土保持试验项目33个小区共195个小区年的资料,计算了剌槐、柠条、沙棘、沙棘-杨树,沙棘-油松、沙打旺、红豆草、苜蓿和草木樨等9种林草植被因子值.林地植被因子介于0.004到0.164之间,以刺槐林的C值最低.草地植被因子介于0.071到0.377之间,以第一年的草木樨C值为最高.定量对比说明林草植被的水土保持效益明显优于农作物.本项研究结果可以用于定量比较不同植被类型覆盖下的土壤流失速率,对于北方农牧交错带退耕还林还草政策的实施具有参考价值.     

Agricultural intensification in Brazil and its effects on land‐use patterns: an analysis of the 1975–2006 period

Does agricultural intensification reduce the area used for agricultural production in Brazil? Census and other data for time periods 1975–1996 and 1996–2006 were processed and analyzed using Geographic Information System and statistical tools to investigate whether and if so, how, changes in yield and stocking rate coincide with changes in cropland and pasture area. Complementary medium‐resolution data on total farmland area changes were used in a spatially explicit assessment of the land‐use transitions that occurred in Brazil during 1960–2006. The analyses show that in agriculturally consolidated areas (mainly southern and southeastern Brazil), land‐use intensification (both on cropland and pastures) coincided with either contraction of both cropland and pasture areas, or cropland expansion at the expense of pastures, both cases resulting in farmland stability or contraction. In contrast, in agricultural frontier areas (i.e., the deforestation zones in central and northern Brazil), land‐use intensification coincided with expansion of agricultural lands. These observations provide support for the thesis that (i) technological improvements create incentives for expansion in agricultural frontier areas; and (ii) farmers are likely to reduce their managed acreage only if land becomes a scarce resource. The spatially explicit examination of land‐use transitions since 1960 reveals an expansion and gradual movement of the agricultural frontier toward the interior (center‐western Cerrado) of Brazil. It also indicates a possible initiation of a reversed trend in line with the forest transition theory, i.e., agricultural contraction and recurring forests in marginally suitable areas in southeastern Brazil, mainly within the Atlantic Forest biome. The significant reduction in deforestation that has taken place in recent years, despite rising food commodity prices, indicates that policies put in place to curb conversion of native vegetation to agriculture land might be effective. This can improve the prospects for protecting native vegetation by investing in agricultural intensification.     

Quantification of soil organic carbon sequestration potential in cropland: A model approach

Agroecosystems have a critical role in the terrestrial carbon cycling process. Soil organic carbon (SOC) in cropland is of great importance for mitigating atmospheric carbon dioxide increases and for global food security. With an understanding of soil carbon saturation, we analyzed the datasets from 95 global long-term agricultural experiments distributed across a vast area spanning wide ranges of temperate, subtropical and tropical climates. We then developed a statistical model for estimating SOC sequestration potential in cropland. The model is driven by air temperature, precipitation, soil clay content and pH, and explains 58% of the variation in the observed soil carbon saturation (n=76). Model validation using independent data observed in China yielded a correlation coefficient R ² of 0.74 (n=19, P<0.001). Model sensitivity analysis suggested that soils with high clay content and low pH in the cold, humid regions possess a larger carbon sequestration potential than other soils. As a case study, we estimated the SOC sequestration potential by applying the model in Henan Province. Model estimations suggested that carbon (C) density at the saturation state would reach an average of 32 t C ha⁻¹ in the top 0–20 cm soil depth. Using SOC density in the 1990s as a reference, cropland soils in Henan Province are expected to sequester an additional 100 Tg C in the future.     

我国农田生态系统土壤动物生态学研究进展

综述了我国近30年来农田生态系统土壤动物生态学研究进展,概述了我国农田土壤动物的群落多样性及其地理分布,总结了农田生态系统中土壤动物对不同耕作方式、施肥和喷洒农药等农业措施、不同土地利用方式以及工业污染的响应,并就土壤动物对农田生态系统健康状况的指示作用等研究的相关进展进行了讨论.通过与国外相关领域的研究进行比较,指出目前研究中存在的问题,提出农田生态系统未来研究的一些热点问题及展望.