Response of Artificial Grassland Carbon Stock to Management in Mountain Region of Southern Ningxia, China

Grassland is a major carbon sink in the terrestrial ecosystem. The dynamics of grassland carbon stock profoundly influence the global carbon cycle. In the published literatures so far, however, there are limited studies on the long-term dynamics and influential factors of grassland carbon stock, including soil organic carbon. In this study, spatial-temporal substitution method was applied to explore the characteristics of Medicago sativa L.(alfalfa) grassland biomass carbon and soil organic carbon density(SOCD) in a loess hilly region with different growing years and management patterns. The results demonstrated that alfalfa was the mono-dominant community during the cutting period(viz. 0–10 year). Community succession began after the abandonment of alfalfa grassland and then the important value of alfalfa in the community declined. The artificial alfalfa community abandoned for 30 years was replaced by the S. bungeana community. Accordingly, the biomass carbon density of the clipped alfalfa showed a significant increase over the time during 0–10 year. During 0–30 year, the SOCD from 0–100 cm of the soil layer of all 5 management patterns increased over time with a range between 5.300 ± 0.981 kg/m2 and 12.578 ± 0.863 kg/m2. The sloping croplands had the lowest SOCD at 5.300 ± 0.981 kg/m2 which was quite different from the abandoned grasslands growing for 30 years which exhibited the highest SOCD with 12.578 ± 0.863 kg/m2. The ecosystem carbon density of the grassland clipped for 2 years increased 0.1 kg/m2 compared with the sloping cropland, while that of the grassland clipped for 10 years substantially increased to 10.30 ± 1.26 kg/m2. Moreover, the ecosystem carbon density for abandoned grassland became 12.62 ± 0.50 kg/m2 at 30 years. The carbon density of the grassland undisturbed for 10 years was similar to that of the sloping cropland and the grassland clipped for 2 years. Different management patterns imposed great different effects on the accumulation of biomass carbon on artificial grasslands, whereas the ecosystem carbon density of the grassland showed a slight increase from the clipping to abandonment of grassland in general.

Study on the Countermeasures of Eco-environment Conservation in the Mountainous Areas of Southern Ningxia under New Situation

Under the implementation of principal functional zoning,further promotion of western development,regional migration,new countryside construction,global warming and so on,the spatial adjustment of regional industry and its structure must be enforced.The spatial adjustment and arrangement of population and economy in the mountainous areas of southern Ningxia could create tremendous opportunity for its eco-environment conservation.Based on analysis on the opportunity and challenge of eco-environment conservation in the mountainous areas of southern Ningxia,some countermeasures of eco-environment conservation were discussed in the paper,so as to provide some theoretical references for the eco-environment conservation in the mountainous areas of southern Ningxia.

Geochronology,Geochemistry,and Sr-Nd-Hf Isotopes of the Diorite Porphyrites from the Weining Beishan Area,Ningxia Hui Autonomous Region:Constraints on Their Source and Tectonic Implications

The Weining Beishan area of Ningxia Hui Autonomous Region is located at on the western edge of the Helanshan tectonic belt,which is a tectonic joint among Alxa Block,Ordos Block,and North Qilian orogenic belt.However,the tectonic evolution of this area remains unclear due to the lack of magmatic information.This paper conducted researches on geochronology,geochemistry,and Sr-Nd-Hf isotopes of the diorite porphyrites exposed in the Weining Beishan area.The zircon U-Pb dating yields two ages of 145.0±1.1 and 146.2±1.5 Ma,and the whole-rock geochemical data indicate that the diorite porphyrites are metaluminous to weakly peraluminous and high-K calc-alkaline series.The characteristics of highly initial^(87)Sr/^(86)Sr ratios(0.70816 to 0.71047),negativeε_(Nd)(t)(−8.9 to−8.4),and negativeε_(Hf)(t)(−13.8 to−21.2)indicate that the diorite porphyrites originated from partial melting of the middle-lower ancient crust related to the North China Craton.Combined with the regional geology,we suggested that partial melting was triggered by a tectonic activity of deep faults cutting through the crust under the regional stress transformation from compressing to extension during the Late Jurassic–Early Cretaceous,which is probably related to the westward subduction of the Paleo-Pacific Plate.

Land Use Regionalization in Poor Counties in Mountainous Areas Based on Targeted Poverty Alleviation

Land use regionalization is a strategic measure for the rational use,management and protection of land resources based on local conditions.Based on the needs of targeted poverty alleviation and rural revitalization strategy and the analysis on the natural and socioeconomic conditions,characteristics of land resources,and the current status of land use in Luquan County,corresponding regionalization indices were selected from four aspects:economic environment conditions,socioeconomic conditions,land resources and land use structure,and poverty alleviation and development level,a scientific and feasible index system for land use regionalization was constructed,and land use in Luquan County was regionalized by using systematic cluster analysis method.The results show that the 16 townships(towns)of Luquan County were divided into four land use regions,poverty alleviation region for development of new town and characteristic industries in the southwest(I),agricultural development and ecological poverty alleviation region in central mountainous area(II),poverty alleviation region for development of characteristic agriculture and tourism towns in eastern plateau mountainous area(III),and poverty alleviation region for development of characteristic industries and protection of land economy in the northern alpine valley area(IV).In addition,suggestions were put forward for the rational use of land in each region.

微生物菌剂对连作芹菜根际土壤真菌群落多样性与结构的影响

以宁南旱区连作4年芹菜根际土壤为研究对象,采用田间定位试验结合高通量测序技术,以常规施肥(CK)为对照,研究常规施肥+枯草·哈茨复合菌剂(MF),常规施肥+枯草芽孢杆菌(BS),常规施肥+哈茨木霉菌(TH)3个处理对芹菜连作根际土壤真菌多样性及群落组成的影响。结果表明:施用枯草·哈茨复合菌显著提高了土壤有效磷、速效钾含量,增幅分别为34.29%和9.98%。施用微生物菌剂增加了土壤脲酶、蔗糖酶活性,平均增幅分别为43.16%和12.98%,并显著改变了土壤真菌的β-多样性。被孢霉属(Mortierella)、织球壳属(Plectosphaerella)、赤霉菌属(Gibberella)、链格孢属(Alternaria)、镰刀菌属(Fusarium)是各处理优势菌属,施用枯草·哈茨复合菌显著降低了赤霉菌属、链格孢属、镰刀霉属等真菌性病原菌的相对丰度,降幅分别为59.88%、51.63%、36.13%。冗余分析表明土壤蔗糖酶、脲酶、碱性磷酸酶活性、pH值和全磷是影响真菌群落结构组成的主要驱动因子。综合而言,枯草·哈茨复合菌剂的施用不仅降低了连作芹菜根际土壤镰刀菌属、链格孢属、赤霉菌属等病原菌的富集,还通过改变有效磷、速效钾等土壤理化性质,进一步重塑土壤真菌群落结构。

供钾水平对宁南山区花椰菜产量及钾素平衡的影响

【目的】为宁夏冷凉花椰菜生产中钾肥合理施用提供科学依据。【方法】以宁夏冷凉主导花椰菜为试验材料,设置0(K_(0))、10(K_(10))、20(K_(20))、30(K_(30))、40 kg/667m^(2)(K_(40))5个施钾水平,通过田间试验,研究供钾对露地花椰菜产量、钾素吸收分配利用及土壤根层钾素质量与平衡的影响。【结果】供钾显著增加花椰菜产量,增产率在5.32%~16.24%,供钾水平与花球产量呈极显著的二次抛物曲线关系,最高产量为3 529.43 kg/667 m^(2),最佳供钾水平为24.28 kg/667 m^(2)。在苗期和莲座期茎叶是花椰菜钾元素的累积中心,不同处理茎叶分配比例在49.67%~90.49%,进入成熟期花球是花椰菜钾元素的累积中心,不同处理花球累积分配比例在42.25%~53.73%,整株花椰菜钾素累积量苗期以K_(30)处理最高,莲座期和成熟期均以K_(20)处理最高,较对照分别显著提高69.40%、79.38%。钾肥利用效率为21.77%~40.31%,以K20处理的钾肥利用率、贡献率及农学效率均最高,分别为45.28%,21.31%、38.670 kg/kg。供钾水平低于20 kg/667 m^(2)时,土壤钾素平衡表现为亏缺,供钾水平超过30 kg/667 m^(2)钾素盈余由负转正,再继续投入钾肥,钾素盈余。【结论】综合考虑花椰菜钾素吸收利用分配与产量和土壤钾素有效性与菜田钾素收支平衡等因素,建议宁夏南部山区花椰菜适宜的供钾水平为21.82~29.24 kg/667 m^(2)。

苜蓿蓟马空间动态与作物布局关系研究

【目的】明确宁夏南部山区苜蓿蓟马空间种群动态与作物环境布局之间的关系。【方法】利用高空遥感无人机获取宁夏南部山区4个研究区域的遥感图片,经处理后计算其景观格局指数,明确景观与蓟马种群动态之间的关系。【结果】离散核心区数量(NDCA)、总边界长(TE)、总面积比(CA/TA)、核心区面积均值(Core_MN)、斑块丰度密度(PRD)与蓟马发生量相关,相关系数为-0.99~0.97。【结论】南部山区在梯田、台塬上种植苜蓿,对于蓟马控制具有地形优势;蓟马在跨越高低起伏的地形上,必须依靠一定的气象条件才能顺利转移;但生境破碎化,容易造成蓟马爆发成灾。

新疆东天山康古尔一带金矿地质特征及成矿机制

新疆康古尔一带的金矿床位于塔里木板块北缘的东天山秋格明塔什—黄山韧性剪切带南缘,是新疆的重要金成矿区。二叠纪早中期,在SN向推覆韧性剪切和右行走滑韧-脆性剪切基础上,地壳快速抬升在韧性变形构造上叠加脆性破裂,一系列张性断裂成为主要容矿构造;同构造期侵位的中酸性浅成斑岩体(如石英斑岩)提供了充足的成矿热源和部分水源及成矿物质来源;康古尔一带金矿矿化型式各不相同,既有产于构造破碎带中的蚀变岩型金矿、石英脉金矿,也有产于火山角砾岩筒中的脉状金矿,还有产于斑岩体边缘或产于岩体内部的斑岩型金矿;但成矿流体的物理化学特征均具中低温、低盐度、中低压力的特点;金矿的形成分为2个热液成矿阶段,其中晚期阶段是金的主要形成阶段。本文对该区金的成矿物理化学环境进行了讨论,并总结了成矿机制,认为康古尔一带金矿形成于统一的岩浆热液成矿系统,成矿作用与区域构造的脆性构造活动同步发生,金矿成矿时段大致在二叠纪晚期(263 Ma—243 Ma);下一步找矿工作应在有利的物化探异常中预测和寻找不同地质产状的中低温浅成热液型金矿。

宁夏南部山区植被覆盖度变化及其地形因子相关性分析

以宁夏南部山区为研究区,基于Landsat影像,运用改进的像元二分模型估算1996、2008和2018年3个时相的植被覆盖度,用数字高程模型提取坡度、坡向等地形因子,分析研究区植被覆盖度的变化以及与地形因子的相关性。结果表明:研究期间,研究区植被覆盖度呈现显著增加,尤以高植被覆盖度为甚。总体来看,高程在2400 m以下的植被覆盖度随高程增加呈现上升趋势;随坡度增加,植被覆盖度呈现上升趋势;1996和2018年2个年份的植被覆盖度在各坡向差异不大,但是2008年植被覆盖度有较明显的差异,变化趋势为阴坡>半阴坡>半阳坡>阳坡。

垄作模式与种植密度互作对露地花椰菜生长的影响

为确定花椰菜在宁南山区露地栽培的最佳作畦模式和种植密度,设置2个不同作畦模式(2行、3行;分别编号为T、N)和3个不同种植密度(2500、3000、3500株/667 m^(2);分别编号为1、2、3)的双因素试验,比较分析不同作畦模式与密度对花椰菜植株生长、产量和品质的影响。结果表明,花椰菜生长、产量及品质指标在不同作畦模式及种植密度处理下有所不同;株幅、花球质量、花球横径、中心柱高在2行作畦且密度在2500株/667 m^(2)时最优;可溶性蛋白含量在2行作畦且密度在3000株/667 m^(2)时最优;叶片数、花球纵径在3行作畦且密度在2500株/667 m^(2)时最优;株高、外茎高、产量、维生素C含量、可溶性固形物含、可溶性糖含量在3行作畦且密度在3000株/667 m^(2)时最优。综合考虑花椰菜植株生长、产量及品质指标,主成分分析最终排名N2>T2>N3>N1>T3>T1,2行和3行作畦且密度在3000株/667 m^(2)时排名前2,且3行作畦、种植密度在3000株/667 m^(2)时效果最好,可作为宁南山区露地花椰菜高产高效栽培参考。

宁南山区杏园三种食心虫种群发生动态

为掌握宁南山区杏园食心虫发生规律,2018年和2020年采用性诱监测方法对彭阳县杏园梨小食心虫、桃小食心虫和李小食心虫成虫种群动态进行了系统监测。结果表明,宁南山区杏园梨小食心虫成虫田间发生期为4月上旬至9月中旬,发生高峰分别为4月底至5月初、5月下旬初和6月中旬末至下旬初,7月上旬后零星发生,无明显峰期。不同坡向虫口数量分布呈现东坡>南坡>西坡,不同坡向的上、中、下坡位虫口数量均以中、下层坡位分布为主。桃小食心虫成虫发生期为5月中旬或下旬至8月下旬或9月初,发生高峰分别为6月上旬或中旬初和7月中旬或下旬;李小食心虫成虫发生期为5月上旬至9月上旬,发生高峰分别为6月上旬、7月上旬和8月上旬。宁南山区对杏园3种食心虫防治可以采取以农业防治为基础,优先采用理化诱杀和生防技术,大发生时加强药剂适期防治的综合防治策略。

干旱风沙区典型退耕还林地集沙监测与评价——以宁夏回族自治区盐池县为例

文中以集沙池(集沙槽)法分别对干旱风沙区宁夏回族自治区盐池县典型退耕还林柠条灌木林地、樟子松乔木林地、旱作农田、放牧草地的近地表集沙量进行监测与评价。研究表明:旱作农田的年均总集沙量最大,为319288.43 g,分别是樟子松乔木林地、退耕还林柠条灌木林地、放牧草地的241.43、351.88、1.96倍;旱作农田及放牧草地均是当地主要沙尘源,而退耕还林柠条灌木林地防风固沙效果最为明显。研究结果可为科学评价退耕还林还草工程生态效益提供技术支撑,对干旱风沙区生态修复有指导意义。

宁夏南部山区紫花苜蓿新品种抗旱性评价与筛选

为筛选出适应宁夏南部山区种植的苜蓿品种,选取21份国内外优质紫花苜蓿,采用盆栽试验的方式开展抗旱试验。利用苜蓿综合耐旱评级标准,从苜蓿存活率、发芽指数和平均分指数3个方面评价参试苜蓿品种的抗旱性。结果表明,甘农6号、陇东苜蓿、敖汉苜蓿为强抗旱型品种,甘农4号、甘农8号、公农1号、勇士为较强抗旱型品种。苜蓿种子在干旱复水后的存活率与幼苗第4天、第5天、第16天时的发芽指数均呈极显著负相关关系,可初步表明苜蓿种子发芽所用时间越少,其后期的抗旱性表现越差;发芽所用时间越长,其后期抗旱性表现越好。

宁南山区长时间序列植被覆盖变化研究

以宁南山区为研究区域,对研究区1990—2020年各年度NDVI及植被覆盖度进行分析。结果表明,1990—2020年研究区的NDVI整体呈升高趋势,植被覆盖度呈现由低植被覆盖度向中高植被覆盖度演变的态势;植被覆盖度较高的区域大部分位于研究区南部,植被覆盖度最高的区域为六盘山区。

生物炭对黑垆土土壤水分运移特征参数影响

为了了解生物炭施加对宁南山区黑垆土土壤水分运移特征参数影响,以宁南山区典型土壤黑垆土为研究对象,按0%,1%,2%和3%的比例将土壤改良剂生物炭施加到垂直和水平土柱中,探讨不同施加比例下入渗速率、饱和体积含水量、饱和导水率、饱和扩散率等土壤水分运移特征参数的变化.研究结果表明:生物炭施加比例1%,2%和3%的土壤体积含水量较0%增加了2.98%,6.45%和7.94%,生物炭施加减缓了土壤入渗速率,提高了土壤持水性能;Philip模型比Kostiakov模型更加能反映出不同比例生物炭施加下土壤水分入渗过程;生物炭施加比例1%,2%和3%的饱和体积含水量分别较0%增加了5.05%,8.33%和9.85%,饱和导水率分别减少了45.71%,62.86%和74.28%,生物炭施加提高了土壤持水能力;Van Genuchten中1%,2%,3%的参数a较0%分别减少了31.90%,29.25%,19.23%;n分别减少了0.28%,0.16%,0.66%;生物炭施加比例1%,2%和3%的饱和扩散率分别较0%减少了58.46%,77.96%和89.28%.生物炭施加改良了土壤结构,增加了土壤体积含水量,提高了土壤持水性能.

我国山地城镇化空间组织模式初探

基于我国山地丘陵地区自然、经济、社会特征与城镇化发展需求分析,本文初步提出区别于传统城镇化理论的山地城镇化空间组织新思路,并就城镇化空间总体布局、中心地体系构建、产业区位选择与国土品质打造等主要方面进行了组织模式探讨,以期为我国山地城镇化理论发展与实践应用提供科学参考与技术依据。

玉米免耕秸秆覆盖对土壤微生物群落功能多样性的影响

为了研究免耕对土壤微生物功能多样性的影响,本项试验运用Biolog-ECO检测手段,对连续2年的玉米(Zea mays L.)保护性耕作试验全部秸秆覆盖免耕和常规耕作2种耕作处理的土样进行了土壤微生物功能多样性研究。试验表明:(1)免耕土壤微生物对碳源利用率以及不同碳源利用率高于常规耕作,免耕对总体碳源利用率平均值比常规耕作高53.1%;(2)免耕土壤微生物丰富度指数、多样性指数显著高于常规耕作,免耕微生物群落丰富度指数22.33±0.57,多样性指数3.02±0.04,常规耕作微生物群路丰富度指数14.33±1.15,多样性指数2.56±0.12。免耕秸秆覆盖耕作措施促进了土壤微生物活性、增加土壤微生物数量。

劳动力析出对生态脆弱区耕地撂荒的影响

研究目的:以宁夏南部山区为例,研究农业劳动力析出对生态脆弱区耕地撂荒的影响。研究方法:二分类logistic回归模型。研究结果:撂荒耕地面积与劳动力外出数量、时间及农户所拥有的耕地总面积呈正相关;耕地中的坡耕地和旱地首先被撂荒。研究结论:劳动力析出会促使农户撂荒部分质量差的耕地;这种撂荒行为有助于生态环境的自然恢复。

宁南山区马铃薯连作田土壤水分变化规律及其对产量的影响

采用定位观测的方法,探讨了宁南山区马铃薯连作田土壤水分变化规律及其对产量的影响。试验结果表明,试验区内土壤贮水量的年际变化呈正抛物线形变化,春秋高,春末夏初达到谷值。土壤含水量的动态变化主要取决于全年降雨分配和蒸发的平衡过程,整个生育期土壤含水量变化在9.95%～21.6%之间。0—100cm层土壤贮水量与产量之间具有显著的相关性,土壤贮水量与马铃薯产量相关关系最显著的时期为发棵期和结薯期,此时也是马铃薯生长耗水的高峰期,在此期间0—100cm土壤贮水量每增加10mm,产量平均可增加135～270kg/hm2。

宁夏灌区节水潜力的研究

通过广义水资源配置模型和平原区水循环模型的有机耦合,分析了宁夏的真实节水潜力——耗水节约量,并建立了宁夏平原区取用水节水与耗水节水二者之间的定量化关系。结果表明,宁夏耗水节水潜力远远小于取用水节水潜力。在宁夏平原区,随着水利用系数的提高,农业取用水量和耗水量不断减少,且减少幅度越来越小。随着水的利用系数的提高,农业取用水节水量和耗水量不断提高,且取用水节水量和耗水节水量的增加幅度越来越小。随着取用水量的减少,耗水量也逐渐减少,但减少幅度越来越小。当取用水达到极值点时,取用水量等于耗水量。随着取用水节水量的提高,耗水节水量也逐渐增加,但增加幅度越来越小,最后趋近于零。