三峡库区紫色土坡耕地草本地埂植物根系分布及抗拉力学特征

[目的]探究三峡库区紫色土坡耕地3种草本地埂植物根系分布及抗拉特征,为揭示地埂植物根系固结地埂提供理论依据和数据支持。[方法]以三峡库区自然恢复的蓑草、人工种植的韭菜和蚕豆这3种草本地埂植物根系为研究对象,对比分析其根系在不同地埂土壤深度的分布规律及根系抗拉特性。[结果](1)在0—40cm深度土壤中3种草本地埂植物根系直径变化表现出:蚕豆根系韭菜根系蓑草根系。3种草本地埂植物根系直径与地埂土壤的土层深度间服从指数函数关系。(2)在0—40cm地埂土层深度范围内,韭菜根系生物量与蓑草根系和蚕豆根系生物量之间存在显著性差异(p0.05),韭菜和蚕豆地埂植物根系生物量随土层深度的增加而逐渐减小,蓑草地埂植物根系生物量随土层深度的增加先增加后减小。(3)3种草本地埂植物根系的单根平均抗拉力次序为蚕豆根系(10.53N)蓑草根系(6.03N)韭菜根系(4.51N),3种地埂植物根系单根抗拉力与根径呈幂函数关系(p0.05)。3种地埂植物根系的抗拉强度表现为蓑草根系(45.91 MPa)蚕豆根系(18.02MPa)韭菜根系(12.20 MPa)。(4)3种草本地埂植物根系黏聚力变化顺序为:蓑草根系(0.013 1kPa)蚕豆根系(0.009 4kPa)韭菜根系(0.005 5kPa)且3种地埂植物根系黏聚力与土层深度呈指数函数关系(p0.01)。[结论]自然恢复的蓑草地埂在三峡库区较其他两种人工种植的地埂植物有更好的固结地埂效果,从而有效控制坡面土壤侵蚀和水土流失。草本植物固结地埂可为三峡库区坡耕地治理提供新思路。     

Carbon isotopic ratios of wetland and terrace soil sequences in the Maya Lowlands of Belize and Guatemala

This article provides new data and synthesizes earlier findings on the carbon isotope ratios of the humin part of soil organic matter from a range of sites in the central Maya Lowlands. Changes down the soil profile in carbon isotope ratios can provide an important line of evidence for vegetation change and erosion over time, especially in well dated aggrading profiles. Research thus far has provided substantial evidence for significant inputs from C₄ vegetation in buried layers from the Ancient Maya periods in depositional soils but equivocal evidence from sloping soils. We present new findings from soil profiles through ancient Maya wetland fields, upland karst wetlands, ancient Maya aguadas (reservoirs), and ancient Maya terraces. Most of the profiles exhibited δ¹³C enrichment greater than the 2.5–3‰ typical from bacterial fractionation. Seven of nine ancient Maya wetland profiles showed δ¹³C enrichment ranging from 4.25 to 8.56‰ in ancient Maya-dated sediments that also contained phytolith and pollen evidence of grass (C₄ species) dominance. Upland karst sinks and ancient reservoirs produced more modest results for δ¹³C enrichment. These seasonal wetland profiles exhibited δ¹³C enrichment ranging from 1 to 7.3‰ from the surface to ancient Maya-period sediments. Agricultural terraces produced mixed results, with two terraces having substantial δ¹³C enrichment of 5.34 and 5.66‰ and two producing only equivocal results of 1.88 and 3.03‰ from modern topsoils to Maya Classic-period buried soils. Altogether, these findings indicate that C₄ plants made up c. 25% of the vegetation at our sites in the Maya Classic period and only a few percent today. These findings advance the small corpus of studies from ancient terraces, karst sinks, and ancient wetland fields by demonstrating substantial δ¹³C and thus C₄ plant enrichment in soil profile sections dated to ancient Maya times. These studies are also providing a new line of evidence about local and regional soil and ecological change in this region of widespread environmental change in the Late Holocene.     

鸡粪改良对铜尾矿基质中无机氮组分及3种豆科植物生长发育的影响

基质改良和耐性物种选择是重金属矿业废弃地生态修复的关键。本文通过室内盆栽试验,以4kg尾矿为植物盆栽基质,分别加入腐熟鸡粪0、8、16、32g混匀,记作MA0（CK）、MA8、MA16、MA32处理方式,研究不同比例腐熟鸡粪改良对铜尾矿基质中无机氮组分及3种豆科植物决明（Cassia tora）、田菁（Sesbania cannabina）、菽麻（Crotalaria juncea）生长发育的影响。结果表明,添加鸡粪改良处理后,3种豆科植物生长的尾矿基质中均以硝态氮为有效氮的主要形态,总无机氮含量为17.96～44.82mg·kg-1。其中菽麻MA32处理组尾矿基质中铵态氮含量（5.31mg·kg-1）最高,菽麻MA16处理组尾矿基质中硝态氮含量（43.06mg·kg-1）和总无机氮含量（44.82mg·kg-1）最高。MA16处理时,田菁和菽麻叶绿素a、叶绿素b、叶绿素a＋b值均表现最大。3种豆科植物叶绿素a/b为0.92～1.08。在同一鸡粪比例处理中,菽麻叶绿素a、叶绿素b、叶绿素a＋b值均显著高于决明和田菁（P〈0.05）。鸡粪改良铜尾矿基质能够促进3种豆科植物生长,植物株高、冠幅、根长均增加,并且随着生长期延长,增加明显。其中MA32处理菽麻70d株高（94.40cm）最大,阻止尾矿风蚀水蚀的效果最好。综合分析表明,MA16处理方式可作为鸡粪改良铜尾矿基质理想的比例模式,菽麻可作为铜尾矿生态修复优选植物种。     

园林植物模型在Quest3D中的应用研究

随着计算机软硬件水平的提高和可视化技术的不断发展更新,虚拟现实技术在园林中应用的领域越来越广,对园林设计的影响也越来越大。作为主流的虚拟现实软件,Quest3D在园林表现中越来越多地被应用,而园林植物对园林设计效果的表现起着重要的作用。对园林植物模型在Quest3D中的应用提出了优化的方法,以改进和完善基于Quest3D的园林虚拟漫游系统的表现效果。     

基于机器视觉的红掌检测分级方法

中国盆花销售量随着消费水平的提高而迅速攀升,四大盆花之一的红掌在规模化生产中存在分级标准掌控不统一、分级结果不稳定以及效率低下等问题,制约了红掌产品的规模化生产,影响了红掌的出品质量。该研究提出基于机器视觉技术的红掌分级检测方法,对90株红掌的水平和竖直方向图像采集,经过二值化等处理,从侧视轮廓、俯视轮廓及佛焰苞轮廓特征三方面获取红掌植株的高度、冠幅、佛焰苞片数、苞片横径4项指标的信息, 针对每一项指标提出检测方法。试验结果表明,该方法对植株高度测量误差小于5.4 mm;针对植株冠幅提出了当量直径测量方法,佛焰苞片数测量正确率可达98.9%,苞片横径相对误差最大为6.52%。针对试验所选90盆红掌分级成功率达到97.8%。研究表明,利用机器视觉技术能够很好地实现对红掌盆花的在线检测分级。     

中药渣用于培养灵芝菌及功能成分分析

该文利用中药渣培养灵芝菌,研究灵芝菌的最适发酵条件,子实体生长条件及其生物活性成分(灵芝多糖及灵芝三萜化合物)和重金属含量。结果表明:灵芝菌固体发酵最适温度为26～28℃,培养基含水量55～60％,pH值5．0～6．0,氧气充足,无需光照;子实体的适宜生长条件为:温度25～30℃,空气湿度90％左右,pH值4．0～6．0,氧气充足,需要光照。分析检测了灵芝酸多糖含量,重金属含量均在安全范围内。     

中药渣用于培养灵芝菌的研究及功能成分分析

该文利用中药渣培养灵芝菌，研究灵芝菌的最适发酵条件,子实体生长条件及其生物活性成分（灵芝多糖及灵芝三萜化合物）和重金属含量。结果表明：灵芝菌固体发酵最适温度为26～28℃，培养基含水量55～60%，pH5.0～6.0，氧气充足，无需光照；子实体的适宜生长条件为：温度25～30℃，空气湿度90%左右，pH4.0～6.0,氧气充足，需要光照。分析检测了灵芝酸多糖含量，重金属含量均在安全范围内。     

草本植物根系网的固土机制模式与力学试验研究

针对生物软措施的力学固土护坡作用进行了力学机制方面的探讨,提出植物根系网固土力学机制模式的四个层次,以及对不同草本植物根系的固土性能进行了力学试验比较。结果表明不同植物根系具有不同的抗拉强度。香根草根系平均抗拉强度最大达85 m Pa,其次为假俭草,平均抗拉强度27.3 m Pa,白三叶根系平均抗拉强度为24.6 m Pa,莎草根系平均抗拉强度为24.5 m Pa,宜安草根系平均抗拉强度为19.7 m Pa,百喜草根系平均抗拉强度为19.23 m Pa,马尼拉草根系平均抗拉强度为17.5 m Pa,狗牙根根系平均抗拉强度为13.45 m Pa。不同的植物根系具有不同的抗拉强度、不同的固土性能与其遗传结构及其组织材料不同有关。充分了解和认识植物根系固土性能,科学合理运用生物软措施代替或部分代替工程措施在我国繁重的生态环境保护和恢复的基本建设工程项目中具有重要的应用价值和意义。     

Respiration pattern and microbial use of field-grown transgenic Bt-maize residues

A 49-day incubation experiment was carried out with the addition of field-grown maize stem and leaf residues to soil at three different temperatures (5, 15, and 25 °C). The aim was to study the effects of two transgenic Bt-maize varieties in comparison to their two parental non-Bt varieties on the mineralization of the residues, on their incorporation into the microbial biomass and on changes in the microbial community structure. The stem and leaf residues of Novelis-Bt contained 3.9 μg g⁻¹ dry weight of the Bt toxin Cry1Ab and those of Valmont-Bt only 0.8 μg g⁻¹. The residues of the two parental non-Bt varieties Nobilis and Prelude contained higher concentrations of ergosterol (+220%) and glucosamine (+190%) and had a larger fungal C-to-bacterial C ratio (+240%) than the two Bt varieties. After adding the Bt residues, an initial peak in respiration of an extra 700 μg CO₂-C g⁻¹ soil or 4% of the added amount was observed in comparison to the two non-Bt varieties at all three temperatures. On average of the four varieties, 19-38% of the maize C added was mineralized during the 49-day incubation at the three different temperatures. The overall mean increase in total maize-derived CO₂ evolution corresponded to a Q₁₀ value of 1.4 for both temperature steps, i.e. from 5 to 15 °C and from 15 to 25 °C. The addition of maize residues led to a strong increase in all microbial properties analyzed. The highest contents were always measured at 5 °C and the lowest at 25 °C. The variety-specific contents of microbial biomass C, biomass N, ATP and adenylates increased in the order Novelis-Bt ? Prelude<Valmont-Bt ? Nobilis. The mineralization of Novelis-Bt residues with the highest Bt concentration and lowest N concentration and their incorporation into the microbial biomass was significantly reduced compared to the parental non-Bt variety Nobilis. These negative effects increased considerably from 5 to 25 °C. The transgenic Bt variety Valmont did not show further significant effects except for the initial peak in respiration at any temperature.     

水土流失区马尾松垦复施肥与混交固氮植物措施对比分析

水土流失区马尾松“老头林”采用一般的垦复施肥措施，对促进马尾松生长有显著效果，但施肥作用只能持续3年左右。而采用混交固氮树种杨梅、胡枝子的措施，随着固氮植物固氮能力及生物生长量的增加，土壤养分状况、土壤结构等得到不断改善，马尾松高生长量也在逐步上升，效果十分显著，且作用持久。