An Assessment of Land Cover Change in Gashaka-Gumti National Park, Nigeria

The paper assessed the land cover change in Gashaka-Gumti National Park between 1991 and 2021. To achieve this, LandSat data of years 1991, 2001, 2011 and 2021 were obtained from the United States Geological Survey online resource. The findings of the study revealed that there is decrease in the different land cover types over time as a result of anthropogenic activities of the enclave dwellers. The study observed that the continuous existence of enclaves within and around the Park constitutes a serious threat to the survival of the Park. The study recommended that the federal government should consider resettlement of the enclave dwellers to give way for the development of the Park.

不同时间添加蚯蚓对矸石覆土生理生态的影响

为探究不同时间添加蚯蚓对矸石覆土中香根草(Vetiveria zizanioides)生理生态的影响,采用土柱试验,设置两种覆土厚度[30 cm(M)、50 cm(N)],每组覆土分别设4个处理组:单独种植香根草(CK)、接种蚯蚓20 d后添加香根草(A)、同时接种蚯蚓和添加香根草(B)、添加香根草20 d后接种蚯蚓(C)处理,分析覆土理化性质及香根草生理生态指标变化特征。结果显示:与CK相比,A、B和C处理均能使覆土pH显著降低趋向中性(P<0.05),提升覆土电导率(EC)、有机质(OM)、全氮(TN)和全磷(TP)含量。与CK相比,不同时间接种蚯蚓均能增加香根草发芽率、总重和叶绿素a含量,其中B处理光合色素(叶绿素a、叶绿素b、类胡萝卜素)含量、A处理叶绿素b含量和C处理根系总长较CK均显著提高(P<0.05)。与CK相比,B处理降低香根草可溶性蛋白和脯氨酸含量效果较强,30和50 cm厚度覆土下B处理香根草可溶性蛋白较CK分别降低9.34%和4.69%(P<0.05),50 cm厚度覆土下脯氨酸含量较CK降低了5.55%(P<0.05),而A处理能显著提高香根草丙二醛含量。同一覆土厚度下,A处理仅在30 cm条件下显著降低香根草过氧化氢酶活性;B、C处理香根草超氧化物歧化酶、过氧化物酶活性较CK相比均无显著差异(P>0.05)。冗余分析和相关性分析表明:A、C处理中覆土OM、TN是影响香根草生理生态特性主要环境因子,而B处理中覆土OM、TP是影响香根草生理生态特性的主要环境因子。研究结果可为蚯蚓-香根草联合应用于复垦土壤修复提供理论依据。

沿海滩涂地区不同措施坡面产流特性研究

我国沿海地区海涂资源丰富,但由于沿海降雨较多且海涂坡面土质松散,坡面极易产生降雨径流侵蚀,这导致海涂沟渠等工程坡面水土流失严重、淋洗困难。通过室内模拟降雨试验,研究在不同雨强下不同措施坡面的产流特性。结果表明:(1)不同措施坡面的初始产流时间均与降雨强度显著负相关,在50 mm/h雨强下,延缓坡面产流的效果依次为淋洗坑>淋洗沟>耐盐草被覆盖,在100、150 mm/h雨强下,延缓坡面产流的效果依次为淋洗沟>淋洗坑>耐盐草被覆盖。(2)不同措施坡面的产流过程具有同步性,在未发生坍塌时产流强度随细沟的发育而增加,待细沟发育成熟后产流趋于稳定,当坡面发生坍塌时产流强度短时间内激增后回落。试验对比发现,耐盐草被覆盖可以明显改善海涂坡面的稳定性。

寒旱食用百合种植区地表覆草技术

研究了寒旱百合种植区地表覆草技术对土壤水热状况、理化性质、百合生长和产量的影响。采用随机区组设计,试验处理为露地、地表覆草、地膜覆盖,3次重复,共计9个处理。结果表明,百合地表覆草技术可以明显改善土壤水热状况,提高土壤理化性质指标含量,增加百合产量。相对于露地处理,地表覆草处理表层土壤温度和含水量分别增加18.86%和2.23个百分点,土壤有机质增加0.31个百分点,碱解氮、速效磷、速效钾含量分别提高18.12%,21.04%和10.41%,株高、茎粗、球横径、球纵径、单球质量和产量分别增加8.26%、22.22%、16.55%、23.47%、32.83%和35.07%。综上所述,在寒旱百合种植区,地表覆草技术是一项重要的田间管理措施。

The Effect of Vineyard Cover Crop on Main Monomeric Phenols of Grape Berry and Wine in Vitis viniferal L. cv. Cabernet Sauvignon

This study was conducted to determine the effect of cover crop inter-row in vineyard on main mono-phenol content of grape berry and wine. Three such cover crops, two perennial legumes （white clover and alfalfa） and a perennial gramineous grass （tall fescue） were sown in vineyard. The main phenolic compounds of mature grape berry and wines vinified under the same conditions were extracted with ethyl acetate and diethyl ether and analyzed by high- performance liquid chromatography （HPLC） by comparing to soil tillage. A total of ten phenolic compounds were identified and quantified in the different grape berry and wines, including nonflavonoids （hydroxybenzoic and hydroxycinnamic acids） and flavonoids （flavanols and flavonols）. The concentration of flavonoid compounds （409.43 to 538.63 mg kg^-1 and 56.16 to 81.30 mg L^-1） was higher than nonflavonoids （76.91 to 98.85 mg kg^-1 and 30.65 to 41.22 mg L^-1） for Cabernet Sauvignon grape and wine under different treatments, respectively. In the flavonoid phenolics, Catechin was the most abundant in the different grapes and wines, accounting for 74.94 to 79.70% and 48.60 to 50.62% of total nonanthocyanin phenolics quantified, respectively. Compared to soil tillage, the sward treatments showed a higher content of main mono-phenol and total nonanthocyanin phenolics in grapes and wines. There were significant differences between two cover crop treatments （tall fescue and white clover） and soil tillage for the content of benzoic acid, salicylic acid, caffeic acid, catechin, and total phenolics in the grape berry （P 〈 0.05 or P〈0.01）. The wine from tall fescue cover crop had the highest gallic acid, caffeic acid and catechin. Cover crop system increased the total nonanthocyanin phenolics of grapes and wines in order of the four treatments： tall fescue, white clover, alfalfa, and soil tillage （control）. Cover crop in vineyard increased total phenols of grape berry and wine, and thus improved the quality of wine evidently.

行间生草种类对苹果园春季土壤蒸发、空气湿度和土壤贮水的影响

为明确行间生草种类对华北平原苹果园春季土壤蒸发、果树冠层空气湿度、土壤贮水的影响特征,揭示果园生草对土壤有效水分的影响规律,于2019-2021年在河北省武邑县武罗农业综合示范园区开展苹果树行间生草试验,采用田间定位观测方法研究了苹果树行间套种越年生牧草(二月兰、毛叶苕子、小黑麦)和多年生牧草(鸭茅、白三叶)后牧草群体叶面积指数(LAI)、光合有效辐射(PAR)透射率、土壤温度、水分蒸发、冠层空气相对湿度、土壤含水量、土壤贮水量的变化特征及相互影响。结果表明,2021年4-5月苹果树行间套种越年生牧草时土壤蒸发量大于多年生牧草,平均增加3.14 mm。越年生牧草切碎覆盖还田前后对土壤蒸发的影响不同。还田前,越年生牧草对土壤蒸发的抑制效果大于多年生牧草,抑制率平均增加20.5%,这与越年生牧草生长速度快,群体LAI大、PAR透射率低,0~25 cm土壤温度低和土壤含水量下降相关。还田之后,对土壤蒸发的抑制效果小于多年生牧草,抑制率平均降低29.0%。越年生牧草对果树冠层1 m高度空气相对湿度的改善效果大于多年生牧草,空气相对湿度平均增加15.5%。冠层空气相对湿度变化与1 m土体内土壤贮水减少量呈显著线性正相关关系。越年生牧草对土壤贮水的消耗量大于多年生牧草,平均多消耗土壤贮水39.20 mm。行间生草后土壤蒸发量平均降低27.80 mm,土壤贮水消耗量平均增加52.50 mm。因此,华北平原苹果园行间生草后春季土壤蒸发减少量难以弥补牧草生长对土壤贮水的消耗量,降低了果园土壤有效水分。越年生牧草比多年生牧草更有利于改善春季果园空气湿度,但对土壤水分消耗较大,生产上应根据不同生草种类对土壤水分的影响特征优化果树春季灌溉制度。

Early Forage Biomass and Sward Structures of Native Warm-Season Grasses Established at Different Seedling Densities

Effects of transplanted seedling density and species on sward structure of native warm-season grass (NWSG) stands were compared in a randomized complete block design. About 6-week-old NWSG (big bluestem (BB, Andropogon gerardii Vitman), eastern gamagrass (GG, Tripsacum dactyloides L.), indiangrass [IG, Sorghastrum nutans (L.) Nash] and switchgrass (SG, Panicum virgatum) seedlings were transplanted in 45-cm wide rows on clean-tilled seedbeds. Within-row spacing was 30, 25, or, 20 cm giving 10, 12, and 15 plants m-2 as low, medium, and high seedling density, respectively. During establishment, the stands were allowed uninterrupted first year growth without fertilizers or irrigation but when necessary, tall-growing broadleaf weeds were mechanically removed. In the following spring, all dead standing biomass was mowed down to allow emerging tillers access to sunlight. During the second year after planting, early-spring basal diameters, row-length intercepted by the NWSG crowns, mid-summer sward heights, and percentage bare ground were determined. From the second June after planting, and for two consecutive years, plots were harvested twice year-1 to assess forage biomass. Data showed that, unlike species, seedling density had no effect on the assessed parameters. Cumulative forage biomass, in kg DM ha-1, was the least for GG (4901) at low and the most (18,245) for SG at high seedling density during the second year. Corresponding values for the third year were 4500 and 7799 kg DM ha-1. Basal diameters ranged from 18 cm (BB) to 24 cm (IG) while percent row intercepts were from 6 (GG) to 46 (IG) with sward heights measuring 41 cm (IG) to 54 cm (GG). In each stand, percent ground cover by the NWSGs, and at every seedling density, averaged 60.5. Transplanting at ≥10 plant m-2 resulted in harvest-ready stands by the second year of establishment. And while close spacing favored the NWSGs against weeds, data showed that an initial plant density of >10 plants m-2 may not result in increased forage production worthy the additional establishment cost. Data on response to fertility management and forage quality attributes are necessary for more reliable practical recommendations.

Management factors affecting densities of common grassland birds of high elevation grasslands of eastern South Africa:Ingula as a case study

Background: World?wide grassland birds are in decline due to habitat loss and degradation resulting from inten?sive agricultural practices. Understanding how key grassland habitat attributes determine grassland bird densities is required to make appropriate conservation decisions. We examine drivers of bird densities in a South African grass?land area that has been managed for biodiversity conservation with reduced grazing pressure.Methods: We estimated the density of the eight most common grassland bird species encountered in our area to evaluate the effects of recent grassland management changes on the avifauna. We collected data on birds and habitat from the austral summers of 2006/2007, 2007/2008 and 2010/2011. We used hierarchical distance sampling methods to estimate density of birds relative to two main habitat variables, i.e., grass cover and height. In addition, we used regression splines within these distance sampling models as a more flexible description of suitable ranges of grass height and cover for each species.Results: For most species, density is related to grass height and cover as expected. The African Quailfinch(Ortygospiza atricollis) and Common Quail(Coturnix coturnix) preferred relatively short and open grass. The Yellow?breasted Pipit(Anthus chloris), African Pipit(Anthus cinnamomeus) and Red?capped Lark(Calandrella cinerea) preferred short and relatively dense grass, while the Wing?snapping Cisticola(Cisticola ayresii) preferred grass of intermediate height and cover. The Cape Longclaw(Macronyx capensis) and Zitting Cisticola(Cisticola juncidis) preferred tall and dense grass. Our results agree with previous studies that grass height combined with grass cover are the most important habitat features that managers should manipulate in order to increase the density of target species. The regression splines show that the effect of these two habitat variables on density is well described by linear relationships for most species.Conclusions: This study supports previous studies suggesting that grazing and fire are important tools for manage?ment to use in order to create a mosaic of grass height and cover that would support high densities of desired spe?cies. We suggest that conservation managers of these grasslands combine fire and grazing as management tools to create suitable habitats for grassland birds in general.

不同土壤管理方式对北冰红葡萄生长及土壤理化指标的影响研究

为明确冰葡萄园土壤管理的最佳技术方法,本研究以生产上主栽的山欧杂交葡萄品种‘北冰红’为研究对象,以清耕除草为对照,园艺地布覆盖和自然生草为2种处理方式,研究清耕除草、园艺地布覆盖和自然生草3种土壤管理方式对冰葡萄园土壤性状及葡萄果实品质的影响。结果表明,园艺地布覆盖处理和自然生草处理的土壤容积含水量略高于清耕除草处理;7月下旬至8月中旬,园艺地布覆盖处理的土壤温度高于清耕除草处理和自然生草处理,高出0.02~0.22℃,8月下旬,自然生草处理的土壤温度高出清耕除草和园艺地布覆盖处理0.09~0.14℃;园艺地布覆盖处理的葡萄单株重、单穗重、可溶性糖含量、单宁含量都显著高于自然生草处理;自然生草处理的成本比园艺地布覆盖处理和清耕除草处理的成本分别低1425元hm^(2)和3075元/hm^(2)。吉林省冰葡萄园土壤管理的最佳方式是自然生草。

光合细菌挂膜碳纤维生态草净化微污染缓流河水

在模拟河道反应池中装填光合细菌挂膜碳纤维生态草,对微污染缓流河水进行净化处理,研究了挂膜碳纤维生态草装填密度、水力停留时间、溶解氧和光照对污染物去除效果的影响,并与河水中土著微生物挂膜碳纤维生态草进行了对比实验。结果表明,提高光合细菌挂膜碳纤维生态草装填密度会改善污染物的去除效率,增加水力停留时间会降低水流速度和剪切速率,使生物膜的生长更加稳定,溶解氧浓度和光照条件的变化对河水中污染物的去除效果影响较小。挂膜碳纤维生态草装填密度为180 g/m~3,水力停留时间为24 h,无曝气和外加光照,通过光合细菌挂膜碳纤维生态草的作用,能明显改善对河水中污染物的去除效果,出水COD_(Mn)、NH_(4)^(+)-N、TN、TP分别低于4.52、0.68、1.00、0.17 mg/L,达到《地表水环境质量标准》(GB 3838—2002)的Ⅲ类水标准。反应系统抗冲击负荷能力强,适应贫营养环境,能有效净化微污染缓流河水。

双向“锅盖效应”诱发戈壁荒漠长草机制分析

我国西北荒漠戈壁滩是气候干旱的不毛之地。然而,塔拉滩光伏电站建成后,场区内却出现了大面积长草的现象。本文探讨了光伏电站中野草生长的可能水分来源。从定性的角度初步探究了双向“锅盖效应”的诱发机理。通过对比光伏板区与非光伏板区分析了浅层土壤3个测点、大气的温度和水分变化规律,以及对双向“锅盖效应”的年循环和日循环水分变化规律进行简单的定量分析。结果表明光伏发电板组件及地表硬化覆盖层综合因素诱发了双向“锅盖效应”;在夏季光伏板可显著降低土壤表层温度;冬、春季以正向“锅盖效应”为主,是维持浅层土壤野草存活的主要水分供给,年循环水分提升幅度约11%~20%;而夏、初秋季以反向“锅盖效应”为主,保证了野草每日水分需求变化在小范围内波动。本文的相关研究也可为荒漠治沙提供参考。

苹果园生草覆盖生态修复对土壤养分的改善影响研究

为了明确生草覆盖生态修复方法对苹果园土壤养分的改善效果,分析苹果园生草覆盖生态修复对土壤养分的改善影响。选取渭北旱塬果园作为苹果园生草覆盖生态修复试验地,在苹果园中选取三种生草作为生草覆盖的草种,选取未生草覆盖的苹果园土壤作为生草覆盖土壤的对比土壤,测定不同组土壤的pH值、土壤硬度以及有机质等指标,确定苹果园生草覆盖改善土壤养分情况。试验结果表明,生草覆盖后,苹果园土壤中的有机质、有效磷、水解氮、速效钾、pH值明显提升,苹果园生草覆盖可以改善土壤养分,提升苹果产量与质量,生态修复效果明显。

水平和垂直尺度乔、灌、草覆盖度遥感提取研究进展

植被覆盖及其变化是区域生态系统环境变化的重要指示,而植被覆盖度是植物群落覆盖地表状况的一个综合量化指标,是生态模型、碳循环、水循环模型等的重要特征参量。传统的植被覆盖度是指一定尺度下所有植被(乔、灌、草)覆盖的综合反映值,当考虑植被垂直方向的异质性,垂直尺度的乔、灌、草覆盖度提取为定量化准确衡量生态环境、全球气候变化等领域提供更具有生态意义的植被参量。目前,遥感大面积估算水平尺度乔、灌、草覆盖度已有比较成熟和可靠的算法,主要方法有:植被指数法、回归分析法、分类决策树法、神经网络法、像元分解模型法、物理模型反演法等,其估算精度基本能达到应用要求。植被垂直方向的异质性给垂直尺度乔、灌、草覆盖度遥感提取带来较大挑战,垂直尺度上的乔、灌、草覆盖度遥感提取的研究在欧美等国已经有了一定规模的开展,在国内则处于起步阶段。遥感提取垂直尺度乔、灌、草覆盖度的主要手段有:激光雷达(LI-DAR)、多角度遥感以及两层结构冠层反射模型反演。综述了水平尺度和垂直尺度上乔、灌、草覆盖度遥感提取的最新进展,比较和分析主要的遥感提取方法、模型和现存的一些问题,并对未来的研究发展趋势进行了展望。

葡萄园生草对葡萄与葡萄酒质量的影响

大多数研究认为,葡萄园生草可有效控制植株的生长势,减少夏季和冬季修剪量,促进根系向土壤深层发展,生草能降低葡萄叶片营养元素含量和葡萄果实产量,可调节葡萄园温度和湿度,改善葡萄园微气候,减少病虫害,提高果实品质,使果实含酸量降低,含糖量和糖酸比升高,同时提高了红葡萄酒中花色素苷、多酚含量及pH,使酒体颜色加深,结构感增强,从而提高葡萄酒的质量。今后应进一步加强葡萄园生草对葡萄与葡萄酒质量影响机理的研究。

白三叶返园对苹果园土壤微生物群落的影响

为了解苹果(Malus pumila)园中覆盖和埋置白三叶(Trifolium repens)对土壤微生物群落的影响,采用尼龙袋法将新鲜的白三叶覆盖和埋置到苹果园中,分别在白三叶降解1、3、6个月时,利用Biolog微平板法检测土壤微生物群落的功能多样性。结果表明,覆盖和埋置白三叶均可使苹果园土壤微生物代谢活性显著提高(P<0.05),微生物的多样性除6个月外显著增加、丰富度显著增加,均匀度显著降低(P<0.05),群落结构发生变化,且覆草处理大于埋草,同时,白三叶降解时间的长短也影响土壤微生物群落。土壤微生物群落主成分分析结果显示,不同返园方式间主要对羧酸类碳源的利用有差异,而导致不同降解时间土壤微生物群落代谢差异的主要是糖类。说明在苹果园覆盖和埋置白三叶可改变土壤微生物群落,而覆盖白三叶对微生物群落结构的改善情况显著优于埋置白三叶。

黄土高原坡地土壤干层形成机理及补水途径研究

对黄土高原坡地林地土壤干层形成原因进行研究,指出降水较少和下渗困难是本区干层形成的两个直接因素,大鱼鳞坑内打孔覆草拦蓄径流、强制下渗是缓解干层形成的最佳途径,同时指出在黄土高原植被建设中应注意树种的选择和搭配,避免种植蒸腾量大、根系吸水强的树种,在工程措施的基础上多种草是生态效益和经济效益双赢的最佳途径。

行间播种紫花苜蓿对赤霞珠葡萄果实及葡萄酒含氮化合物的影响

研究了赤霞珠葡萄园行间播种紫花苜蓿对葡萄果实与葡萄酒总氮、游离氨基酸、蛋白质、Vc含量及葡萄酒理化指标等的影响。结果表明,与清耕相比,行间播种紫花苜蓿使葡萄与葡萄酒中总氮含量降低,葡萄果皮和葡萄酒中氨基酸总含量降低,而葡萄汁中氨基酸总含量升高;行间播种紫花苜蓿和清耕(对照)葡萄汁、葡萄果皮中均以脯氨酸含量最高,占氨基酸总含量的32．66％～35．22％,其次是精氨酸,占氨基酸总含量的23．48％～27．17％,葡萄酒中也均以脯氨酸含量最高,分别占氮基酸总含量的82．78％及86．81％;行间播种紫花苜蓿使葡萄汁中Vc含量升高,葡萄酒中总酸含量极显著降低,蛋白质含量显著降低,花色素苷含量及pH升高。

京郊果园种植几种优质果园草覆盖越冬技术研究

针对白三叶Trifolium repens、杂三叶T.hybridum、鸭茅Dactylis glomerata、百脉根Lotus cornicula-tus等几种优质果园草在京郊果园难以安全越冬的问题。试验采用覆膜、覆草、浅覆土3种覆盖越冬技术对果园草进行覆盖越冬效果的比较研究。结果表明,覆膜、覆草、浅覆土3种覆盖技术较对照均能显著提早各果园草品种的返青时间,显著提高越冬率和覆盖度。覆膜区的果园草品种较浅覆土和对照区分别提早返青13和20 d以上,越冬率平均分别提高21.8%和60.8%,返青生长到4月1日时草群覆盖度分别提高41%和51.3%,而覆草区的果园草品种较浅覆土和对照区分别提早返青4和8 d以上,越冬率平均分别提高16%和45.3%,返青生长到4月1日时草群覆盖度分别提高14%和22.7%。几种果园草品种覆盖越冬效果的具体表现为覆膜>覆草>浅覆土>对照,但在具体实施中虽覆膜是一种效果最为明显的果园草品种覆盖技术,而覆草技术(干草535 g/m2、厚度约5 cm)更为环保、经济、实用。

牧草覆盖对坡面土壤矿质氮素流失的影响

利用室内模拟降雨试验,探讨了降雨、地表径流以及土壤矿质氮素有效作用深度(effectivedepthofinteraction,EDI)的确定方法,研究了牧草覆盖对土壤矿质氮素EDI和地表流失的影响.结果表明,牧草覆盖增加了地表径流与表层土壤的相互作用,导致水土混合体深度增加,较深土层的土壤矿质氮通过溶解和解吸作用、对流-扩散作用等方式进入到地表径流中,矿质氮EDI增加.覆盖度越大,EDI值越大.与裸地相比,60%、80%和100%覆盖度处理中径流矿质氮平均浓度分别增加了34·52%、32·67%和6·00%,地表径流量分别减少了4·72%、9·84%和12·89%,侵蚀泥沙量分别减少了83·55%、87·11%和89·01%.60%和100%覆盖度处理的矿质氮地表流失总量分别为裸地处理的95·73%和84·05%,而80%覆盖度处理则为裸地处理的109·04%.草地植被对矿质氮素地表流失有“双重效应”:加剧了矿质氮向地表径流中的释放,使径流养分浓度高于裸地浓度;不同程度地减少了地表径流量和泥沙量及其养分含量.两种效应共同决定了土壤矿质氮素的地表流失量.

辽西苹果园三种地面管理模式对土壤理化性状和昆虫群落的影响

【目的】筛选适合辽西地区苹果园的地面管理模式,明确相关地面管理模式对果园绿肥、土壤和昆虫群落的影响。【方法】针对该地区苹果园气候、生态特点及病虫害综合控制需要,组建清耕、自然生草和人工种草3种果园地面管理模式。绿肥、土壤和昆虫群落等相关指标数据的采集分别采用特定方法、定期调查的方式进行,通过数据对比明确不同模式对相关生态因子的影响。【结果】生草栽培地面管理模式能较好地保持和调蓄土壤水分,有效缓解果园旱情,并且在保持土壤肥力、修复果园生态、提升昆虫丰富程度等方面优于清耕模式。两种生草模式中自然生草在保水、保肥、保温方面各项数据与人工种植三叶草模式相近,但在地面覆盖速度、草株高度和产草量方面具有优势,其杂草种类也经过多年的自然汰选,适应区域气候。【结论】3种地面管理模式中自然生草更适合在辽西苹果园内推广。