长期保护性耕种方式对农田表层土壤性质的影响

研究了不同耕种方式对澳大利亚同一地区3种土壤表层(0～5cm)理化性质的作用,以揭示保护性耕作对土壤质量恢复的影响.结果表明:免耕穴播/保留残茬(DD/SR)、多年生人工草地(PP)和自然草地(NP)表层土壤的>2mm水稳性团聚体含量、全氮、有机碳含量、田间持水量均显著高于其相应对照传统耕作/秸秆焚烧(CC/SB)、人工草地/作物轮作(PPC)和耕作(CT)的;土壤全氮含量、田间持水量分别与有机碳含量之间有极显著的正相关关系(r=0.994**,r=0.996**,n=6),而受土壤质地等因素的影响较小;在同一类型的土壤上,土壤有机碳含量与水稳定性团聚体含量之间存在显著的相关性;在不同试验区,耕作措施对表层土壤容重和孔隙分布的影响存在较大差异;秸秆焚烧和施用石膏对表层土壤的pH及交换性阳离子含量有较大的影响.研究表明长期保护性耕作、草田轮作或多年生草地有利于提高表层土壤有机碳含量和结构稳定性,从而改善土壤的供肥供水能力.     

不同耕作措施对冬小麦根系时空分布和产量的影响

在田间定位试验的基础上,研究了内陆河绿洲灌区不同耕作措施对冬小麦根系时空分布和产量的影响.结果表明:免耕秸杆覆盖(NTS)和免耕立茬(NTSS)措施下冬小麦根系总干重和总根长都大于传统耕作(T),且差异显著;开花期各处理总根干重和总根长都达到最大,之后开始下降;NTS和NTSS处理0～10cm土层的根长密度和根干重密度显著高于T处理,表现出根系表层分布的特征;拔节期, NTS、NTSS和NT处理10～30cm的根长密度和干重密度都小于T,而拔节后NTS 和NTSS各土层根长密度和根干重密度增长幅度大于T.产量研究结果表明,NTS和NTSS能显著提高冬小麦产量,与T 相比,产量分别提高16.84%～30.59%和12.76%～24.32%.     

保护性耕作对麦药轮作土壤酶活性和微生物数量的影响

以传统耕作(T)为对照,研究了免耕(NT)和免耕+秸秆覆盖(NTS)保护性耕作对麦药轮作后土壤脲酶、碱性磷酸酶、蔗糖酶和过氧化氢酶活性与细菌、真菌和放线菌数量的影响。试验结果表明:麦药轮作后,从T、NT至NTS,0-5cm、5-10cm和10-30cm同层土壤各种酶活性均逐渐增强,以NTS处理效果最好。表层土壤水解酶活性变化最明显,NTS较T菘蓝土壤表层脲酶、碱性磷酸酶和蔗糖酶活性分别提高38.53%、39.65%和110.00%,小麦土壤分别提高28.10%、19.71%和75.00%,均对蔗糖酶活性影响最大;过氧化氢酶均为深层土壤变化最明显,菘蓝和小麦土壤分别提高9.09%和18.91%。麦药轮作后菘蓝T、NT至NTS同层土壤各种微生物数量和总数逐渐升高,NTS处理效果最好,而小麦土壤表层和中层微生物数量逐渐增加,NTS处理效果最好,但深层土壤细菌、真菌数量和微生物总数呈T低,NT升高,NTS又降低的趋势,土壤放线菌数量则逐渐升高。菘蓝0-5cm土壤细菌、真菌、放线菌数量和微生物总数NTS较T分别提高22.81%、55.56%、67.14%和22.81%,小麦土壤分别提高62.84%、92.86%、14.29%和66.67%。麦药轮作后菘蓝不同耕作处理土壤细菌数量和微生物总数较小麦土壤减少了10倍左右。     

Characterising insect diversity on Australia’s remnant native grasslands: ants (Hymenoptera: Formicidae) and beetles (Coleoptera) at Craigieburn Grasslands Reserve,Victoria

Ants and beetles sampled by pitfall trapping on a large grassland remnant near Melbourne, Victoria, are enumerated and discussed. Species richness of both groups differed little between grassy flat areas and more rocky knolls, or between early and late summer. Seasonal differences in abundance were found in both taxa: beetles were more abundant in early summer, and ants more abundant in late summer. Implications of such differences for rapid sampling of grassland insects in the region are discussed.     

保护性耕作对陇中旱作农田水分特征的影响

陇中旱农区生产力水平低而不稳,而保护性耕作措施是农业可持续发展的重要途径.本研究依托2001年建立在陇中旱农区的长期不同耕作措施的定位试验,研究了不同耕作措施对土壤水分入渗、蒸发、作物产量和水分利用效率的影响.该试验共设6个处理,分别为传统耕作(T)、免耕秸秆覆盖(NTS)、免耕(NT)、传统耕作+秸秆翻入(TS)、传统耕作+覆膜(TP)、免耕覆膜(NTP),春小麦和豌豆年间轮作.结果表明:与T处理相比, NTS处理的小麦地和豌豆地的土壤容重显著降低,总孔隙度显著增加.保护性耕作措施降低了豌豆地0～5 cm土壤渗吸率,NTS处理渗吸率比T处理降低56.2%.保护性耕作提高了土壤饱和导水率,无论小麦地和豌豆地,NTS均比T处理显著提高了饱和导水率,增幅为52.8%～107.1%.保护性耕作显著降低了作物生育期棵间蒸发量,NTP、TP、NTS比T处理降低了14.4%～50.8%,并减弱了雨后土壤蒸发.保护性耕作提高了作物产量和水分利用效率,NTS、TP、NTP的产量比传统耕作提高了9.5%～62.8%,水分利用效率比传统耕作提高了0.4%～50.9%.因此,在陇中旱农区,保护性耕作措施可以提高水分利用效率,增加作物产量.     

Effects of conservation tillage on soil organic matter in paddy rice cultivation

In this study, the effect of conservation tillage on soil organic matter (SOM) in paddy rice cultivation after 10 yr was investigated. Four treatments, disk till-fallow (DTF), disk till-wheat (DTW), conservation till-fallow (CTF) and conservation till-wheat (CTW) were used. The results indicated that the combinative application of no-tillage, ridge culture and wheat cultivation was a sound conservation practice in paddy rice cultivation. It not only significantly increased the concentration of SOM in the topsoil, but also affected optical and pyrolysis characteristics of humic acids (HA) through changing the composition and structure of SOM. At 0–10 cm, the greatest SOM content was in CTW, but declined sharply with depth, while in DTF, DTW and CTF the SOM content was not as high at the surface as in CTW, but did not decline as fast as in CTW. The oxidation stabilization of SOM was generally greater in no-tillage and ridge culture than that in disk till. The HA optical density in CTW at wavelength 665 nm and 465 nm was 0.122 and 0.705, while in DTF was 0.062 and 0.321, respectively. E₄/E₆ ratio in CTW was higher than that in the other treatments. The enthalpy capacity of the exothermal peak (360–365°C) for the HA DTA curve in no-tillage and ridge culture was lower than that in disk till, while the HA absorption peaks in 1000–1050 cm^?1 presented the reverse trend. The oxidation stabilization coefficient of HA in no-tillage and ridge culture was higher than that in disk till, indicating that the polycondensation degree and aromatization of HA were stronger. These findings suggest that it may be possible to manipulate paddy soil through conservational tillage and crop practices, and thereby maintain adequate SOM concentrations, and mitigate soil organic carbon loss from soil to atmosphere.     

保护性耕作对土壤微生物量及活性的影响

研究保护性耕作对土壤微生物特性的影响对于土壤管理具有重要意义。试验研究了保护性耕作对麦田土壤微生物量碳、活跃微生物量、土壤呼吸、呼吸商的影响。前3项采用的方法分别是:基质诱导呼吸法、呼吸曲线数学分析法和CO2释放量法。结果表明,保护性耕作土壤微生物量碳0～10cm土层大于10～20cm土层,而常规耕作两土层间无明显差异。秸秆还田在播种前、越冬期和起身期能显著提高土壤微生物量碳,而开花期和收获期则降低土壤微生物量碳。少耕还田10～20cm土层微生物具有较强的养分调控作用。保护性耕作利于0～10cm土层活跃微生物量的提高。秸秆还田和保护性耕作在耕作作业初期(越冬期和起身期)能增强土壤呼吸速率;在耕作作业后期(开花期和收获期)能显著降低土壤呼吸速率。免耕秸秆覆盖在10～20cm土层呼吸商较高,而常规耕作无秸秆还田在0～10cm土层呼吸商较高。土壤微生物量碳和呼吸商是衡量土壤微生物特性的重要指标。     

保护性耕作对稻田土壤有机质的影响

研究使用常规犁耕-休闲(DTF),常规犁耕-小麦(DTW),保护耕作-休闲(CTF),保护耕作-小麦(CTW)4个处理,评价连续实验10a后保护性耕作对稻作区SOM的影响。结果表明:垄作、免耕和小麦种植的结合是稻作区一种较好的保护性耕作实践。它不仅显著增加SOM在土壤表层的聚集,而且它也通过改变SOM的组成和结构显著影响土壤胡敏酸的光谱和热解特性。相比其他处理,垄作免耕(稻麦)在0～10cm土层拥有最多的SOM含量,但随着土层厚度的增加,这一含量下降的也较为迅速。垄作免耕(稻麦)土壤胡敏酸在波长665nm处的光密度为0.122,465nm处为0.705,而常规平作(中稻)在这两个波长处却分别为0.062和0.321。垄作免耕土壤胡敏酸DTA曲线在360～365℃处放热峰的焓变值比常规平作低,1000～1050cm-1吸收峰常规平作也比垄作免耕强。垄作免耕土壤腐殖质的氧化稳定系数增高,表明长期垄作免耕土壤腐殖酸的缩合度增高,芳构化程度增强。通过保护性耕作和作物实践可以管理稻田土壤,维持充分的SOM积累,缓解土壤有机碳的丢失。     

不同耕作方式和秸秆还田对麦田土壤有机碳含量的影响

通过两个生长季试验,研究了不同耕作方式和秸秆还田及其交互效应对小麦全生育期0～20 cm土壤有机碳含量的影响.结果表明：小麦不同生育时期0～20 cm土层有机碳含量呈明显的动态变化;秸秆还田各处理的有机碳含量都高于无秸秆还田处理;保护性耕作措施土壤有机碳增加量显著高于传统翻耕.除传统翻耕处理外,各处理0～10 cm土层的有机碳含量都高于10～20 cm土层,秸秆还田各处理0～10 cm土层有机碳含量表现为深松(PS)＞旋耕(PR)＞免耕(PZ)＞耙耕(PH)＞传统翻耕(PC),而10～20 cm土层表现为传统翻耕(PC)＞深松(PS)＞旋耕(PR)＞耙耕(PH)＞免耕(PZ),说明保护性耕作措施能提高0～10 cm土层的有机碳含量.多因素方差分析表明：耕作因素、秸秆因素和两者交互效应在不同生育期对0～20 cm土层的有机碳含量都有显著影响.     

Effects of tillage systems on wheat and weed water relationships over time when growing together,in semiarid conditions

Water availability directly influences interactions and competition between weeds and crops. This article is based on the idea that relative water content (RWC) indicates the water uptake within plants and that it is possible to explain the water relationships between plants that are growing together. A field experiment carried out for 3 years (2013–2014, 2014–2015 and 2015–2016) compared the short-term effects of years and tillage systems on wheat grain yield, weed density, wheat-RWC, weed-RWC and soil water content (SWC), at tillering and flowering stages in a winter wheat monoculture system. The three tillage treatments were conventional tillage (CT), minimum tillage (MT) and no-tillage (NT). Wheat grain yield was low all years of study, because of low interannual rainfall, and we did not observe differences between tillage systems. Weed density was also affected by year and not by tillage systems. Lowest winter rainfall (73.4 mm from Nov to Feb) in the last year of the study (2015–2016), decreased the weed density in all tillage systems. Despite the rainfall variability over the 3 years of study, the NT system presented higher weed density (73 plants/m²) than MT and CT systems (39.83 and 46.33 plants/m²). We also observed a higher number of weed species for the NT system, facilitated by a high soil water storage in this system. The wheat-RWC, at tillering stage, varied with years and tillage systems; we found that high winter rainfall (2013–2014) led to higher values in CT (64.5%) compared with MT (52.9%) and NT plots (52.9%). Weed-RWC values did not vary and SWC was greater in NT than in CT and MT. At flowering stage, the year (2015–2016) with highest spring rainfall favoured higher wheat-RWC in NT (56.9%) compared with CT (48.3%). However, the lowest spring rainfall coincided with the lowest weed-RWC, (18% in NT plots) and SWC was always higher in NT soils. The results showed that climatic conditions affected the water competence dynamics between weeds and wheat in different ways. Seemingly, weeds can tolerate a lack of water availability until crop tillering stage independently of tillage system; however, the competition for water was not a problem as crops overcame the high weed density by flowering stage.     

保护性耕作和杂草管理对冬小麦农田土壤水分及有机碳的影响

在秸秆全量还田的试验田中(从2004年起),于2008-2009年及2009-2010年冬小麦生育期间,研究了不同耕作措施(旋耕、耙耕、免耕、深松和常规耕作)和杂草管理对冬小麦田土壤水分及有机碳的影响.结果表明:在未除草条件下,免耕、深松的杂草总密度显著提高;而在除草条件下,杂草密度显著下降.小麦从拔节期到灌浆期0～60 cm土层水分含量呈明显波动变化,田间保留一定量的杂草可增加不同耕作方式0～20 cm的土壤水分含量,表现出一定的土壤水分保持效应.保留杂草仅提高了拔节期0～20 cm土层的土壤有机碳含量;而在抽穗期和灌浆期,0～20、20～40和40～60 cm土层有机碳含量均低于去除杂草处理.去除杂草条件下,深松显著提高了冬小麦籽粒产量;保留杂草条件下,旋耕的籽粒产量最高,常规耕作产量最低.     

不同秸秆还田和耕作方式对夏玉米农田土壤呼吸及微生物活性的影响

采用基质诱导呼吸法和CO2释放量法,研究了冬小麦季长期不同耕作方式(常规翻耕、免耕和深松)和秸秆处理(秸秆还田和无秸秆还田)对夏玉米田土壤呼吸及微生物活性的影响.结果表明:秸秆还田和保护性耕作主要在O～ 10 cm土层起作用.秸秆还田能明显提高土壤微生物生物量碳和微生物活性,降低呼吸熵,在苗期和开花期提高土壤呼吸,而在灌浆期、腊熟期和收获期降低土壤呼吸;在相同秸秆处理条件下,深松和免耕比常规翻耕能显著降低土壤呼吸和呼吸熵,提高微生物生物量碳和微生物活性.整个生育期,秸秆还田结合保护性耕作能显著提高微生物生物量碳和微生物活性,降低呼吸熵,与常规翻耕无秸秆还田相比,深松秸秆还田和免耕秸秆还田0～10 cm土层微生物生物量碳平均提高了95.8％和74.3％,微生物活性提高了97.1％和74.2％.     

Tillage differentially affects the capture rate of pitfall traps for three species of carabid beetles

The influence of tillage, gender, and microclimate on capture rates of pitfall traps for the beetles Poecilus scitulus LeConte, Poecilus lucublandus (Say), and Pterostichus melanarius Illiger (Coleoptera: Carabidae) were assessed in mark–release–recapture experiments in spring pea and spring wheat. Experiments were conducted during June, July, and August of 2003 in the Palouse region of northern Idaho, USA. Rates of capture in pitfall traps for the three carabid species were differentially affected by crop‐tillage systems. Capture rates for P. scitulus and P. lucublandus were higher in no‐till (NT) than in conventional tillage (CT) peas, whereas capture rates for P. scitulus and Pt. melanarius were higher in CT than in NT wheat. Ground‐level temperatures and relative humidity (r.h.) differed little among tillage systems. Nevertheless, capture rates were generally positively correlated with ground‐level temperature and negatively correlated with r.h., with correlations more often significant in NT than in CT systems. The response of the thermophilic Poecilus spp. to temperature provides a possible mechanistic explanation for capture rate patterns in legumes during June, but not in other months for peas or any month in wheat during the experiments. Movement impedance due to residue could explain lower capture rates of P. scitulus and Pt. melanarius in NT than in CT spring wheat. These results suggest that researchers using pitfall trapping for carabid populations should take into account potential capture biases their treatments can introduce.     

不同模拟雨量下耕作措施对夏玉米水分利用效率和产量的影响

基于西北夏玉米生产实际和降雨特征,用自制模拟降雨器,于2010年6-9月研究了250、350和450 mm模拟雨量下翻耕、免耕、免耕覆盖对夏玉米农田水分利用效率及产量的影响.结果表明： 在6-9月250 mm雨量下免耕水分利用效率比翻耕高26%,产量比翻耕高16.5%;350 mm雨量下免耕水分利用效率和产量分别比翻耕高17.6%和6.1%;在450 mm雨量下免耕的蓄水效应低于翻耕,水分利用效率比翻耕低1.1%,产量比翻耕低0.6%.免耕覆盖克服了免耕在雨量充沛时水分蓄积量低于翻耕的缺点,在3种雨量下均可有效抑制棵间蒸发,减少翻耕地表裸露造成的无效水分消耗,增加土层贮水量,增大蒸腾量占水分消耗的比例,250 mm雨量下免耕覆盖水分利用效率比翻耕高48.6%,产量比翻耕高32.9%;350 mm雨量下免耕覆盖水分利用效率比翻耕高51.6%,产量比翻耕高27.1%;450 mm雨量下免耕覆盖水分利用效率比翻耕高23.7%,产量比翻耕高13.1%.综上,免耕夏玉米在250和350 mm雨量下相对于翻耕有增产和提高水分利用效率的优势,免耕覆盖夏玉米在250、450 mm雨量下产量和水分利用效率显著高于翻耕.     

Body temperatures of Namib Desert tenebrionid beetles: their relationship in laboratory and field

Abstract The body temperatures of six apterous species of Namib Desert tenebrionid beetles were measured continuously with indwelling thermocouples under laboratory conditions and in the field. The range of body temperatures selected was within the upper half of their 'tolerated range', which we defined as the temperatures lying between measured critical thermal maximum and critical thermal minimum. In the field, individuals also maintained their body temperatures within the upper half of the 'tolerated range'. These beetles maintained higher body temperatures than those recorded for any other ectothermic insect. Three of the six species maintained lower body temperatures in the field than they selected in the laboratory. The other three species showed no significant difference between field and laboratory body temperatures. We conclude that these beetles are not forced by biotic or abiotic factors to adopt thermal niches which present them with physiological difficulties.     

耕作方式对东北雨养区玉米光合与叶绿素荧光特性的影响

在东北地区设置大田试验,研究不同耕作方式下玉米全生育期耕层土壤温度、土壤含水量、叶片光合性能及叶绿素荧光参数的变化特征.结果表明： 耕作方式对土壤水热性能的影响主要体现在播种-拔节阶段,2010-2011年平地播种中耕起垄(PL)和全生育期平作(PP)处理0～40 cm土层土壤体积含水量在出苗期、苗期和拔节期比传统垄作(LL)处理平均提高5.6%和5.2%、4.6%和7.3%及3.9%和4.8%,苗期5 cm土壤最低温度分别比LL处理高1.4和1.3 ℃.由于土壤水热条件的改善,拔节期PL和PP处理的叶片净光合速率(P_n)、蒸腾速率(T_r)等指标显著高于LL处理,而PSII潜在活性(F_v/F_o)和PSII最大光化学效率(F_v/F_m)无显著差异,表明气孔导度和气孔限制值等气孔因素是导致光合作用差异的主要原因;灌浆期叶片P_n和T_r则以LL和PL处理显著高于PP处理,这主要是由于PP处理在强降雨时期经历了涝渍灾害,光合作用受到抑制.可见PL处理通过改善土壤水热条件增强了玉米光合性能,进而提高了籽粒产量.     

Effects of urbanization on streams of the Melbourne region, Victoria, Australia. II. Benthic diatom communities

1. Epilithic and epiphytic diatom community composition were assessed in small streams of the Melbourne region to test the effects of (a) urban density (sub-catchment imperviousness 0–51%) and (b) stormwater drainage intensity (comparing the intensively drained metropolitan area with urban areas of the hinterland, which had open drains and some localized stormwater drainage).
2. Communities separated into three groups: eastern hinterland, western hinterland and a metropolitan group. Separation of eastern and western hinterland groups, and of eastern and western sites within the metropolitan group were best explained by patterns of electrical conductivity, basalt geology and annual rainfall. Separation of metropolitan and hinterland groups, and patterns within the hinterland groups were best explained by nutrient gradients (phosphorus, ammonia and total nitrogen).
3. Nutrient concentrations were not only apparently influenced by urban density but also by effluents from small sewage treatment plants and agricultural activities at a few sites.
4. Species richness did not vary consistently between the metropolitan and hinterland groups but within the western hinterland, sites with low nutrient concentrations tended to be more species-rich than mildly enriched sites.
5. Composition of both diatom and macroinvertebrate communities (assessed in a concurrent study) were sensitive indicators of urban-derived impacts. However, diatoms were better indicators of nutrient enrichment, while macroinvertebrates were better integrative indicators of catchment disturbance.     

Effects of urbanization on streams of the Melbourne region, Victoria, Australia. I. Benthic macroinvertebrate communities

1. Macroinvertebrate community composition was assessed in small streams of the Melbourne region to test the effects of (a) urban density (catchment imperviousness 0–51%) and (b) stormwater drainage intensity (comparing the intensively drained metropolitan area with urban areas of the hinterland, which had open drains and some localized stormwater drainage).
2. Hinterland communities separated into two groups of sites correlating strongly with patterns of electrical conductivity (EC), basalt geology and annual rainfall. Community composition varied little in the high-EC, western group (imperviousness 0.2–1.2%), but in the eastern group it was strongly correlated with catchment imperviousness (0–12%), with lower taxon richness in more impervious catchments.
3. Metropolitan communities (imperviousness 1–51%) were all severely degraded, with high abundances of a few tolerant taxa. Community composition was poorly correlated with patterns of geology, rainfall or imperviousness. Differences between metropolitan and hinterland communities were well explained by patterns of biochemical oxygen demand and electrical conductivity, which were postulated to indicate the more efficient transport of pollutants to receiving streams by the metropolitan stormwater drainage system.
4. Degradation of macroinvertebrate community composition was well explained by urban density but intensive urban drainage increased degradation severely at even low urban densities. Quantification of relationships between imperviousness, drainage intensity and stream degradation can better inform the assessment, conservation and restoration of urban streams.     

四川盆地稻田多熟高效保护性耕作模式的生态系统服务价值评估

运用生态系统服务功能价值评估方法,对四川盆地稻田保护性耕作条件下多熟高效保护性种植模式进行生态经济评价。结果表明,油-稻-芋模式比油-稻传统耕作种植模式的农产品服务价值高32．42％,固定CO2和释放O2的价值高17．03％;麦-稻保护性耕作模式比麦-稻传统种植模式农产品服务价值高55．21％。固定CO2和释放O2的价值高9．40％。油-稻秸秆还田双免耕模式比油-稻传统耕作种植模式土壤积累有机质的价值高0．23％,农田生态系统维持营养物质循环的价值高12．35％;麦-稻保护性耕作种植模式比麦-稻传统耕作种植模式土壤积累有机质的价值高0．39％,农田生态系统维持营养物质循环的价值高12.81％;稻草覆盖还田后油菜田的农田涵养水分价值增加11．66％,小麦田农田涵养水分价值增加32．63％。     

Effects of elevation and slope on the alpha and beta diversity of ground-dwelling beetles in Mt. Jirisan National Park,South Korea

We examined the diversity of ground-dwelling (epigaeic) beetles at different elevations of the northern and southern slopes of Mt. Jirisan National Park, South Korea. We selected eight study sites from both slopes and collected the beetles 10 times from May 2018 to August 2019 using pitfall traps. We collected a total of 67 species and 12,304 individuals and found higher species richness and abundance among the beetles from the northern slope (54 species and 6,969 individuals) than the southern slope (46 species and 5,335 individuals). We observed that the proportion of species based on the biogeographic affinity (Palearctic or Oriental) did not depend on the elevation and slope. The species richness increased with elevation and the abundance showed hump-shaped with a peak at 800 m. While the overall beta diversity was similar at the mountain and slope levels, the underlying processes such as spatial turnover and nestedness differed at the mountain and slope levels, respectively. We found that the ground beetle assemblages depended on elevation and soil characteristics such as soil organic matter and pH but were unaffected by the vegetation type.