Spatiotemporal variation of soil organic carbon in the cultivated soil layer of dry land in the South-Western Yunnan Plateau, China

The dynamics of soil organic carbon(SOC)in cropland is one of the central issues related to both soil fertility and environmental safety. However, little information is available at county level regarding the spatiotemporal variability of SOC in the southwestern mountainous region of China. Thus, this study aimed to explore spatiotemporal changes of SOC in the cultivated soil layer of dry land in Mojiang County,Yunnan Province, China. Data were obtained from the second national soil survey(SNSS) of 1985 and soil tests for fertilizer application carried out by the Mojiang Agricultural Bureau in 2006. The ANOVA test was applied to determine any significant differences between the datasets, while semivariogram analysis was performed on geostatistics via an ordinary Kriging method in order to map spatial patterns of soil organic carbon density(SOCD). The results revealed that SOCD in the cultivated soil layer significantly decreased from 3.93 kg m^(-2) in 1985 to 2.89 kg m^(-2) in 2006, with a total soil organic carbon stock(SOCS) decrease of 41.54×10~4 t over the same period. SOCS levels fell most markedly in yellow-brown soil at a rate of51.52%, while an increase of 8.70% was found in the analysed latosol. Geostatistical analysis also showed that the recorded changes in SOCD between 1985 and2006 were spatially structured. The decreasing trend might be attributed to the combined action of intense cultivation, major crop residue removal without any protective tillage measures, unreasonable fertilization and natural climatic diversity inducing a large decrease in SOC in the studied cultivated dry land region of Mojiang County. Therefore, management measures such as protective tillage should be undertaken in order to enhance soil C sequestration.

Status and circulation characteristics of soil water in dryland field of southeast Shanxi Province

Based on the observed soil water data from experimental site located in southeast of Shanxi Province, the physical characteristics of soil water, crop effect on soil moisture, and the field water circulation pattern were studied by using the water balance method. The results suggested that soil water deficit often exists in fields of these areas. From May to June, the amount of water deficit in bare land rises to the maximum (232 8 mm) and falls to the minimum (66 6 mm) from August to September. By comparison, because of crop transpiration, both soil water deficit and dry soil layer in cultivated land are 15 1—40 4 mm more and 20—70 mm deeper respectively than those of bare land. Crops mainly planted in these areas have a relatively weak utilization ability to soil water. Winter wheat has the highest utilization ability to soil water among the crops planted in these areas. The soil water utilization ability of winter wheat is 26 2%—30 6% and winter wheat can use soil water that lies in soil layer below a depth of over 200 cm. Spring corn and millet can only consume soil water with the maximum ability of 13 4% and the deepest layer of 0—50 cm or 0—100cm, which shows that the soil water utilization ability of winter wheat is higher than that of spring crops. After crop is ripe, more than 41% of available soil water remains unused in field. So, increasing soil water storage and improving crop utilization ability to soil water by adopting efficient agrotechnique measures are the main ways for improving agricultural productivity in dry farming areas of Northern China.

Optimization of sowing date and seeding rate for high winter wheat yield based on pre-winter plant development and soil water usage in the Loess Plateau,China

Sowing date and seeding rate are critical for productivity of winter wheat(Triticum aestivum L.).A three-year field experiment was conducted with three sowing dates(20 September(SD1),1 October(SD2),and 10 October(SD3)) and three seeding rates(SR67.5,SR90,and SR112.5) to determine suitable sowing date and seeding rate for high wheat yield.A large seasonal variation in accumulated temperature from sowing to winter dormancy was observed among three growing seasons.Suitable sowing dates for strong seedlings before winter varied with the seasons,that was SD2 in 2012–2013,SD3 in 2013–2014,and SD2 as well as SD1 in 2014–2015.Seasonal variation in precipitation during summer fallow also had substantial effects on soil water storage,and consequently influenced grain yield through soil water consumption from winter dormancy to maturity stages.Lower consumption of soil water from winter dormancy to booting stages could make more water available for productive growth from anthesis to maturity stages,leading to higher grain yield.SD2 combined with SR90 had the lowest soil water consumption from winter dormancy to booting stages in 2012–2013 and 2014–2015; while in 2013–2014,it was close to that with SR67.5 or SR112.5.For productive growth from anthesis to maturity stages,SD2 with SR90 had the highest soil water consumption in all three seasons.The highest water consumption in the productive growth period resulted in the best grain yield in both low and high rainfall years.Ear number largely contributed to the seasonal variation in grain yield,while grain number per ear and 1 000-grain weight also contributed to grain yield,especially when soil water storage was high.Our results indicate that sowing date and seeding rate affect grain yield through seedling development before winter and also affect soil water consumption in different growth periods.By selecting the suitable sowing date(1 October) in combination with the proper seeding rate of 90 kg ha–1,the best yield was achieved.Based on these results,we recommend that the current sowing date be delayed from 22 or 23 September to 1 October.

Estimating Ecological Characteristics and Carbon Stock in Uneven-Aged Plantations of Acacia senegal L. in the Savannah Woodlands of Sudan

The aim of this study was to assess Acacia senegal trees’ characteristics as well as evaluate the carbon stock under a variety of ages in the El Demokeya forest in Sudan, where the Gum Arabic belt is located. 12 sample plots, in 2021 were randomly distributed to represent the entire area of the forest prior to the required measurements. The sample was designed as squire plots with one hectare. In each sample plot, all trees were counted, their height (m), and Diameters Breast Height (DBH in cm), respectively. The results showed the highest number of trees per ha at age 20 years old and the lowest number at age 47 years, while the highest values of DBH and volume were found at age 47 years old. As a result, the maximum and minimum values of the aboveground biomass were found in the age 47 years old and 16 years, accounting for 19.87 tons and 1.9 tons respectively. Thus, the amount of carbon stock was 11.92 tons/ha in the 35-years-old and 1.19 tons/ha in the 21-year stands. Furthermore, the average carbon stock in all plots was estimated as 18.70 tons/ha and hence the total carbon stock in the El Demokeya forest is equal to 620.11 tons. Conclusively, the characteristics of trees, amount of aboveground biomass and carbon stock in the El Demokeya forest varied among the uneven-aged plantation groups. The study recommends and encourages the protection of A. senegal in order to increase the carbon sink as well as protect the environment in the era of climatic changes.

湄公河典型区域旱雨季土地利用及土壤侵蚀差异研究

以湄公河干流老挝沙湾拿吉至柬埔寨桔井段重要支流南蒙河、色丹河、色贡河、色桑河、斯雷博河及其左右岸缓冲区50 km范围为研究区域,基于Landsat8遥感和河网数据,对比植被覆盖度以及空间分布特征,分析区域内旱季(1-2月)、雨季(6-9月)土地利用及土壤侵蚀变化。结果表明,季节性降雨导致土地利用变化明显,旱、雨季土地利用变化主要表现为河道沿岸水体动态变化;旱季水体面积较雨季净减少43 259 hm^(2),占总变化面积的93.8%;雨季至旱季耕地转化占总变化面积38.00%(17 514.44 hm^(2)),其次为灌木地(22.98%,10 590.54 hm^(2))和裸地(21.77%,10 033.32 hm^(2))。土地利用类型转化导致土壤侵蚀变化,旱、雨季土壤极强烈侵蚀和剧烈侵蚀区域变化不大;旱季以轻度侵蚀、中度侵蚀增加为主,净增加面积分别为4 107 hm^(2)和5 864 hm^(2),分别占总变化面积的36.9%和52.7%;增加面积主要由无侵蚀类型发展而来,体现在旱季沿岸水体面积的大幅降低。建议在水土保持过程中,改传统稻田种植为耕作、轮作和培肥一体化的水保措施,增强基础设施建设,加强河岸带生态护坡建设与管理,降低自然洪水或人为工程对自然林地和植被的破坏。

不同土地利用类型对土壤纤维素酶活性及肥力因子的影响

为揭示不同土地利用类型对土壤纤维素酶活性(soil cellulase activity,SCA)和土壤肥力因子的影响,阐明土壤肥力因子与SCA之间的关系及影响,在黑龙江省海伦市,选择土地利用类型为旱地和有林地的土壤为研究对象,运用通径分析方法,阐明土壤肥力因子对SCA的正负效应。结果表明,有林地土壤的有机碳、全氮、全磷、含水率、SCA极显著高于旱地;旱地土壤的pH极显著高于有林地。相关性分析表明,旱地土壤SCA与有机碳、全氮含量呈显著负相关;有林地土壤SCA与有机碳含量和土壤含水率呈极显著正相关性,与全氮含量呈显著正相关。通径分析表明,土壤pH、全氮和含水率是直接显著影响旱地土壤SCA的重要因子,有机碳和全氮对SCA产生间接负效应;有机碳、全氮是决定有林地土壤SCA的主控因子。土壤肥力因子与SCA在旱地与有林地间存在极显著差异,旱地土壤肥力水平与SCA劣于有林地,说明该区域旱地存在长期高强度人为利用,导致旱地的养分状况发生退化,水分减少。

不同耕作方式与有机肥施用对旱地麦田土壤磷组分的影响

为探讨耕作措施和有机肥施用对旱地麦田土壤磷组分的影响,本研究依托2007年布设的黄土高原旱地小麦耕作与施肥长期定位试验,采用Tiessen磷素分级方法,系统研究了深翻+化肥(T)、深翻+鸡粪+化肥(TM)、免耕+化肥(NT)和免耕+鸡粪+化肥(NTM) 4种农艺措施下麦田0~20 cm土层有效磷、全磷和磷组分分布特征。结果表明:1) NT处理有效磷含量较T处理提高58.37%,有机肥处理(NTM和TM)有效磷和全磷含量均显著高于不施有机肥处理(NT和T),NTM处理的有效磷和全磷含量较TM处理分别显著提高11.43%和43.41%。2)与T处理相比,NT、NTM和TM处理可不同程度提高0~20 cm土层活性无机磷组分NaHCO_(3)-Pi以及中活性无机磷组分NaOH-Pi含量,尤其以NTM和TM处理效果最好。3) NT处理的NaHCO_(3)-Po和NaOH-Po较T处理分别显著提高53.07%和55.56%,NTM处理的这2种组分含量较TM处理分别显著提高90.84%和60.31%,Residual-P NT处理较T以及NTM处理较TM分别提高12.90%和36.60%。4)长期定位试验地每年施入的磷肥在土壤中有盈余,残留的磷主要以NaHCO_(3)-Pi、D.HCl-Pi、NaHCO_(3)-Po和C.HCl-Po形态存在,免耕增施有机肥促进了稳定性磷(C.HClPo)向活性磷(NaHCO_(3)-P)和潜在活性磷(NaOH-P)的转化;偏最小二乘(PLS)回归分析结果表明,NaHCO_(3)-Pi和NaOH-Pi是最有效的磷源,对小麦产量的提升贡献较大,NTM处理对这2种磷组分积累的促进效果最明显。综上免耕增施有机肥是发展黄土高原旱作农业值得推广的农艺措施,同时在推广应用时需要考虑减少化学磷肥用量。

水田改旱地和菜地后红壤酸度和养分变化特征

【目的】以红壤区典型县域祁阳为例,分析不同母质发育的水田改为旱地和菜地后土壤酸度和养分含量变化特征,为该区合理利用土地防治酸化提供科学依据。【方法】选取18个点位,采集水田及相邻的旱地和菜地,分析土壤pH、交换性酸、交换性盐基离子、有机质、阳离子交换量和养分含量的变化及其相互关系。【结果】碱性母质发育的土壤pH均显著高于酸性母质发育的土壤。酸性母质发育的水田改为菜地后土壤pH降低了0.48个单位;碱性母质发育的水田改为旱地和菜地后土壤pH分别降低了0.74和0.53个单位。双直线模型拟合分析表明,当水田、旱地和菜地的土壤pH分别低于5.88、5.78和5.63时,土壤交换性铝含量快速升高,且降低一个pH单位土壤交换性铝含量分别增加1.09、2.33和2.93 cmol(+)·kg^(-1)。酸性母质发育的水田改为旱地土壤有机质和全氮含量分别降低了11.06和0.42 g·kg^(-1),而菜地无显著变化;碱性母质发育的水田改为旱地和菜地后土壤有机质和全氮含量均显著下降,降幅分别为13.88—17.28和0.57—0.71 g·kg^(-1)。碱性母质发育的水田改为旱地和菜地后土壤有效氮含量分别降低了47.66和42.34 mg·kg^(-1)。两种母质发育的水田改为菜地后土壤全磷、有效磷含量均显著增加,增幅分别为0.41—0.48 g·kg^(-1)和26.79—28.69 mg·kg^(-1)。两种母质发育的水田改为旱地和菜地土壤全钾含量无显著变化;碱性母质发育的水田改为旱地和菜地后土壤有效钾含量显著升高,分别升高了36.69和65.76 mg·kg^(-1)。相关分析表明,土壤pH与土壤交换性钙和镁、阳离子交换量、有机质含量和全氮含量呈显著正相关(P<0.01);土壤交换性酸和铝与有效磷含量显著正相关(P<0.05),与土壤交换性钙和镁、阳离子交换量、有机质含量和全氮含量呈显著负相关(P<0.01)。【结论】酸性母质和碱性母质发育的水田改为旱地后土壤有机质、全氮含量均显著降低,而土壤全磷、有效磷含量呈增加趋势;酸性母质发育的水田只有改为菜地后土壤才酸化,而碱性母质发育的水田改为旱地和菜地后土壤均酸化;水田改为旱地和菜地后土壤硝化作用增强和盐基离子淋失增加可能是其酸化的主要原因之一。

降解地膜对旱地农田土壤水热状况及春玉米产量的影响

[目的]明确降解地膜对旱地农田土壤水热状况和春玉米产量的影响。[方法]设置厚度为0.010 mm普通聚乙烯地膜(T_(1))、厚度为0.008 mm的PPC降解地膜(T_(2))、厚度为0.007 mm的PPC降解地膜(T_(3))、裸地栽培(CK)4个处理,观测不同覆膜处理对陕北旱地春玉米农田的土壤水分、温度及春玉米产量的影响。[结果]在0~25 cm土层中,覆膜处理较CK的土壤温度高1.9~5.0℃,且T_(1)处理的土壤温度最高;在0~100 cm土层中,不同处理的土壤含水量表现为T_(1)>T_(2)>T_(3)>CK,覆膜处理的土壤含水量较CK高10.7%~19.3%。T_(1)处理和T_(2)处理的千粒重分别较CK显著提高14.3%和7.4%(P<0.05),产量分别较CK显著提高19.1%和14.1%(P<0.05),且T_(2)处理的春玉米秃尖率最低。各处理的春玉米水分利用率无显著差异(P>0.05)。[结论]T_(2)处理有助于改善土壤水热状况、增加春玉米产量、提高品质,可作为陕北春玉米绿色高产栽培的适宜覆膜材料。

中卫市退砂土地农作物复垦的可行性分析研究

本研究旨在分析宁夏中卫市沙坡头区退砂地的土壤质量提升及农作物种植适宜性。通过连续3年的田间试验,收集并分析了8种宁夏地区广泛栽培的耐旱作物对土壤理化性质的影响及其经济效益。分析了退砂耕地适生农作物对当地土壤质量的影响及经济效益。结果表明,朝天椒和红葱在退砂地上表现出较高的产量和产值,且投入产出比大,是退砂地优先选择的作物。此外,玉米和小杂粮等作物轮作种植也显示出改良土壤结构和提高肥力的潜力。本研究为退砂地的科学利用提供了理论依据和实践指导,有助于推动中卫市经济社会可持续发展。

黑龙江省旱地土壤有机碳动态模拟与预测

研究土壤SOC的变化,对准确评价土壤固碳潜力具有重要意义。用嫩江实测数据对CENTURY模型进行验证,然后用该模型模拟和预测黑龙江表层(0~20cm)SOC的动态变化。结果表明:(1)40年来,黑龙江旱地SOC整体呈下降趋势,SOCD下降了2.42Mg C·hm^(-2);SOC减少了29.78Tg;(2)1980年黑龙江90.77%的旱地SOCD都介于30~70Mg C·hm^(-2)之间,主要分布在黑龙江东部、西部和西南部;2020年SOCD空间分布与1980年基本一致。但与1980相比,有50.05%的旱地面积的SOCD在减少,减少的有机碳大于增加的有机碳;40年间,丢碳(dSOCD<0)的旱地面积占76.8%,主要分布在黑龙江西部和东部;(3)模拟期间SOCD最大的一直是暗棕壤和草甸土,储量最高的是草甸土。(4)30年后,黑龙江SOC呈下降趋势,且下降的速率在减缓;2050年SOCD为48.42Mg C·hm^(-2),相比2020年减少了0.69Mg C·hm^(-2);2050年储量为595.59Tg,相比2020年减少了8.48Tg,未来30年黑龙江表现为“碳源”。

不同花生轮作模式对土壤酶活性的影响

通过探究不同花生轮作模式对耕层土壤酶活性的影响,为改善土壤理化性状、提高作物生产效率提供科学依据。针对水田和旱地两种起始田,在长江中下游地区设小麦—花生和油菜—花生两种轮作模式,以花生连作为对照,开展3年定位试验,探究不同轮作模式对0~20 cm和20~40 cm土层土壤脲酶、过氧化氢酶、蔗糖酶和碱性磷酸酶活性的影响。研究发现,起始田块及种植模式对土壤酶活性均有极显著影响。在旱地起始田下,与花生连作相比,油菜—花生轮作模式提高了0~20 cm土层土壤过氧化氢酶(6.5%)和脲酶(4.7%)活性;在水田起始田,小麦—花生轮作模式土壤碱性磷酸酶敏感性最低(-17.2%~-6.6%),与花生连作和小麦—花生轮作相比,油菜—花生轮作提高了0~20 cm土层土壤过氧化氢酶活性(4.7%~4.8%);相同种植模式相同土层深度下,四种土壤酶活性均表现为水田高于旱地,而同一起始田相同种植模式,土壤酶活性表现为0~20 cm土层高于20~40 cm土层,且以水田起始田,花生连作下碱性磷酸酶活性的表现最为明显(129.6%);除0~20 cm土层过氧化氢酶活性外,土壤脲酶、蔗糖酶和碱性磷酸酶活性均表现为花生连作>油菜—花生轮作>小麦—花生轮作。综上,起始田块类型和种植模式均可显著改变土壤酶活性,花生连作更有利于土壤酶活性的提高,这可能与其休闲期较高的杂草生物量和多样性有关。

不同轮作制下长期施肥旱地土壤微生物多样性特征

为了探讨典型旱地区施肥制度对土壤微生物多样性的影响,本研究通过27年长期定位试验,采用454测序技术,分析了黄土旱地区小麦连作、苜蓿连作、粮豆轮作中不同化肥及有机肥施肥措施下土壤细菌、真菌多样性的变化情况。结果表明：除施氮肥和有机肥（NM）处理外,施肥后连作小麦土壤细菌Chao指数提高7.5%（施磷肥和有机肥,PM）~60.6%（单施有机肥,M）,Shannon指数增加0.04（PM）~0.40（M）,肥料单施优于配施;施肥后连作苜蓿土壤细菌Chao指数提高92.0%（单施磷肥,P）~102.4%（施氮肥、磷肥和有机肥,NPM）,Shannon指数增加0.30（NPM）~0.32（P）;施肥对粮豆轮作土壤细菌多样性影响较小。除小麦连作NP处理外,施肥后各种植系统土壤真菌Chao指数提高19.1%~55.0%,但真菌Shannon指数变化不大或明显下降。黄土旱地区作物连作时施与适当化肥或有机肥,可提高土壤细菌多样性。本研究对优化旱地作物施肥制度、发挥土壤潜力肥力、实现土壤资源可持续利用有着重要的意义。

应用454测序技术分析种植制度对黑垆土微生物多样性的影响

研究典型种植制度对旱地黑垆土微生物多样性的影响,对优化旱地作物种植制度、发挥土壤潜在肥力、实现土壤资源可持续利用有着重要的意义。通过27年长期定位试验,采用454测序技术分析了黄土高原旱作地区不同种植制度下黑垆土细菌、真菌多样性的变化情况。结果表明,不施肥低营养胁迫下,细菌多样性表现为粮豆轮作>小麦连作>裸地>苜蓿连作,真菌多样性表现为小麦连作≈苜蓿连作>裸地>粮豆轮作。施氮、磷肥条件下,粮草长周期轮作(苜蓿→苜蓿→苜蓿→苜蓿→马铃薯→小麦→小麦→小麦+苜蓿)中土壤微生物多样性大致表现出先降低后增加的趋势,第4年苜蓿或苜蓿茬后第1年小麦微生物Chao指数和Shannon指数最低,苜蓿茬后第2年小麦微生物多样性最高,细菌Chao指数和真菌Shannon指数比连作小麦高22.0%和79.2%;粮草短周期轮作(红豆草→小麦→小麦+红豆草)中土壤微生物多样性大致呈现增加趋势,至红豆草茬后第2年小麦土壤微生物多样性达到最高,真菌Chao指数和Shannon指数均分别比连作小麦高50.8%和51.0%。黄土高原旱地区黑垆土采取粮食作物与豆科作物轮作可提高土壤微生物多样性。

地膜覆盖及施用有机肥对地温及冬小麦水分利用的影响

在大田试验条件下,研究了地膜覆盖及施用有机肥对地温及冬小麦水分利用的影响。结果表明,地膜覆盖及施用有机肥的增温效应主要表现在冬小麦的生育前期,单覆地膜的增温效应先于并且高于单施有机肥;后期仅在地表表现明显,单施有机肥的增温效应高于单覆地膜。地膜覆盖及施用有机肥通过显著增加拔节—开花期的耗水,显著增加了总耗水量,并提高了产量和水分利用效率。单覆地膜的增温、节水、增产及水分利用效率均高于单施有机肥。地膜小麦施用有机肥后,生育前期的增温效应有所减弱,生育后期增温效应反而增强,同时苗期耗水量减少;总耗水量少量增加(3.5%)却大幅度提高了产量(10.6%)和水分利用效率(7.6%)。从增施有机肥对地膜小麦的地温和水分利用的影响来看,增施有机肥可以控制地膜小麦冬前苗期的过旺生长,但在成熟期却又促进了地膜小麦的衰老。

不同覆盖方式对旱地棉田土壤环境及棉花产量的影响

分析普通地膜覆盖、小麦秸秆覆盖、地膜+秸秆覆盖3种覆盖物对旱地棉田土壤环境、棉花产量构成因素的影响,结果表明:覆盖栽培能改善土壤环境,降低土壤容重,提高土壤水分利用率,调节土壤温、湿度,协调水热资源利用的同步性;秸秆覆盖能增加土壤养分含量,特别是速效钾含量;在棉花生长后期,提高叶面积指数,延长叶片功能期,提高棉株的光合能力从而防止棉花早衰,增加铃重,提高棉花产量。

旱地小麦覆盖栽培高产机理研究

设置黑色液膜、白色液膜、普通地膜、小麦秸秆 4种覆盖物的旱地冬小麦覆盖栽培试验 ,研究覆盖对土壤环境及小麦产量因素的影响。结果表明 ,覆盖对土壤环境和小麦产量影响差异明显。与露地对照相比 ,4种覆盖处理除白色液膜外 ,小麦产量差异均达到极显著水平。其中普通地膜和黑色液膜影响最大 ,其次为小麦秸秆 ,白色液膜影响最小。旱地小麦覆盖栽培产量显著提高 ,是由于覆盖可以提高土层温度和土壤含水量 ,提高水分生产效率 ;改善土壤物理环境和促进小麦生产发育 ;

不同覆膜方式对西北旱地麦田土壤水热特征和产量形成的影响

为了改善西北旱区土壤水热条件,提高降水利用效率,研究西北旱作条件下白膜平铺覆土穴播(T1)、黑膜平铺覆土穴播(T2)、白膜垄沟覆土穴播(T3)、黑膜垄沟覆土穴播(T4)、白膜平铺无土穴播(T5)、黑膜平铺无土穴播(T6)和露地穴播(CK)对麦田土壤水热效应和籽粒产量及水分利用效率的影响,以期为实现春小麦高产高效种植提供理论依据。结果表明:地膜覆盖具有明显增温和降温双重效应。与CK相比,在春小麦苗期和分蘖期覆膜处理下0~25cm土层土壤平均温度增加0.73℃和0.88℃,而在扬花期和灌浆期降低0.38℃和0.75℃。从整个生育期看,不同覆膜处理在0~25cm土壤温度变异系数(18.24%~20.02%)低于CK处理(21.48%),说明地膜覆盖有利于减轻土壤温度波动。不同处理下小麦全生育期0~25cm土层地温随土层的加深而逐渐降低,在25cm处的平均地温低于5cm处5.38℃。春小麦抽穗至灌浆期阶段的耗水量和耗水比例均最大,平均分别为126.83mm和47.37%,T3处理在此阶段的耗水量最高,显著高于CK处理21.33%。地膜覆盖可显著提高春小麦的籽粒产量和水分利用效率,增幅分别为9.64%~21.92%和6.45%~20.15%,且T3处理的籽粒产量最高(3 915.40kg·hm^(-2));而T4处理的水分利用效率最高,T1处理次之,T5处理最低,分别较CK显著增加20.15%、15.39%和6.45%。综合考虑,T4处理是最适宜在西北旱区条件下推广的春小麦种植模式。

不同施肥水平下旱地土壤细菌群落多样性的RFLP分析

采用直接提取土壤微生物总DNA的方法,通过对不施肥(CK)、低量施肥(F1,N∶P2O5∶K2O为0·1gkg-1∶0·075gkg-1∶0·15gkg-1)、适量施肥(F2,N∶P2O5∶K2O为0·2gkg-1∶0·15gkg-1∶0·3gkg-1)和过量施肥(F3,N∶P2O5∶K2O为1·0gkg-1∶0·75gkg-1∶1·5gkg-1)等4种不同施肥水平土样DNA提取,扩增细菌16SrDNA基因片段,建立克隆文库。用限制性内切酶HhaI和RsaI进行PCR-RFLP分析,分别得到146、133、187、170个酶切类型。采用α多样性的测度对试验结果进行分析统计表明,不同处理间土壤细菌的多样性和物种丰富度均为F2>F3>CK>F1,表明合理施肥有利于土壤细菌的多样性;λ、R2、dMa和E指数在不同施肥处理间的变异系数达到12·86%～118·9%,尤其是Simpson指数λ变化最为敏感,处理间的差异最大。序列分析和系统发育树结果表明,不同施肥处理下供试土壤优势细菌的分布发生了改变。

培肥措施对旱地农田土壤CO2排放和碳库管理指数的影响

阐明长期有机物料施肥下土壤CO2排放特征及其影响机制以及碳库管理指数对黄土高原旱作农业区固碳减排及施肥模式选择的影响尤为重要。基于2012年设置在陇中黄土高原旱作区的长期定位试验,通过不施肥(CK)、氮肥(NF)、有机肥(OM)、秸秆(ST)、有机肥结合无机肥(OMNF)5个处理,测定并计算了2018年不同施肥措施下全年土壤CO2排放、作物碳排放效率和碳库管理指数的变化,并运用结构方程模型分析了0~30 cm土壤温度、水分、微生物量碳氮、易氧化有机碳、蔗糖酶、脲酶与土壤CO2排放速率的关系。结果表明:1)与不施肥相比,秸秆、有机结合无机肥和有机肥处理使生育期土壤CO2排放平均速率提高了42.72%、30.82%和29.79%,秸秆、有机肥处理分别使生育期土壤CO2排放量显著提高36.35%、32.45%(P<0.05),有机结合无机肥处理使碳排放效率显著降低41.10%(P<0.05);2)有机物料处理均能显著提高0~5 cm土层易氧化有机碳、微生物量碳氮、蔗糖酶活性和碳库管理指数,相比不施肥和氮肥处理,有机结合无机肥处理分别使0~30 cm土壤碳库管理指数提高127.41%,99.33%(P<0.05);3)结构方程模型表明,环境因子对土壤CO2排放速率的总解释度为53%,对土壤CO2排放速率总效应较大的影响因素包括土壤温度(2.36)、微生物量碳(1.59)和土壤水分(1.18),且均间接地影响着土壤CO2排放速率,土壤温度促进了微生物量碳和蔗糖酶活性的提高,微生物量碳促进了微生物量氮和易氧化有机碳的增加。综合来看,有机结合无机肥处理可以提升土壤碳库管理指数,保持微生物活性,增加作物产量,降低土壤碳排放效率,是陇中黄土高原旱作农业区比较适宜的农田培肥措施。