Sloping Vineyard(倾斜的葡萄园)研究综述
Sloping Vineyard 倾斜的葡萄园 - Soil erosion in sloping vineyards greatly influence the spatial distribution of soil nutrient contents and can affect plant nutrition and vigor. [1] In sloping vineyards, PTEs can also be moved by soil erosion resulting in their accumulation in low-energy zones within the landscape, adversely affecting the soil environment. [2] In rural and industrial areas, the natural complex spatial variability of soil properties (mainly due to changing pedogenetic factors) is further complicated by anthropogenic activities related to soil management (such as deep plowing, sloping vineyards, etc. [3] Intense soil erosion in sloping vineyards can substantially change the spatial quality patterns of soil that may ultimately affect plant nutrition. [4] Soil erosion is a main problem in sloping vineyards, which can dramatically affect soil quality and fertility. [5] As study area, we used the specific case of the sloping vineyards of the Montes de Malaga (South Spain). [6] Therefore, the main aim of this research is to compare the differences between initial soil erosion processes on poorly managed terraced vineyards and sloping vineyards at the pedon scale, considering the key role of the SSC (Soil Surface Components). [7] The SOC increase was 6% in the flat area and 9% in the sloping vineyard after five years since CC management adoption. [8] The effects on soil compaction and both hydrological and erosional processes of machine traffic were investigated on a sloping vineyard with different inter-row soil managements (tillage and permanent grass cover) in the Alto Monferrato area (Piedmont, NW Italy). [9]<p>坡地葡萄园的土壤侵蚀极大地影响了土壤养分含量的空间分布,并能影响植物的营养和活力。 [1] 在倾斜的葡萄园中,PTEs 也可能因土壤侵蚀而移动,导致它们在景观内的低能量区域积累,对土壤环境产生不利影响。 [2] 在农村和工业区,与土壤管理相关的人为活动(如深耕、坡地葡萄园等)进一步复杂化了土壤性质的自然复杂空间变异性(主要是由于土壤遗传因素的变化)。 [3] <p>坡地葡萄园中强烈的土壤侵蚀会显着改变土壤的空间质量模式,最终可能影响植物营养。 [4] 土壤侵蚀是倾斜葡萄园的主要问题,它会极大地影响土壤质量和肥力。 [5] 作为研究区域,我们使用了蒙特斯德马拉加(西班牙南部)的倾斜葡萄园的具体案例。 [6] 因此,考虑到 SSC(土壤表面成分)的关键作用,本研究的主要目的是比较管理不善的梯田葡萄园和坡地葡萄园的初始土壤侵蚀过程之间的差异。 [7] 自 CC 管理采用五年后,平坦地区的 SOC 增加了 6%,坡地葡萄园增加了 9%。 [8] 在 Alto Monferrato 地区(意大利西北部皮埃蒙特)采用不同的行间土壤管理(耕作和永久性草皮覆盖)的倾斜葡萄园上,研究了机器交通对土壤压实以及水文和侵蚀过程的影响。 [9]
Steep Sloping Vineyard
Within the European project Diverfarming (Horizon 2020, no 728003), which investigates crop diversification and low-input farming across Europe, we study the aggregate stability variability of soils with high rock fragment content on steep sloping vineyards in the upper Saar valley of the Mosel area (Wawern, Rhineland-Palatinate, Germany). [1] The Mosel Wine region has suffered during the last decades a decrease in productive area, mostly on steep sloping vineyards. [2]<p>在欧洲项目 Diverfarming(Horizon 2020,编号 728003)中,该项目调查了整个欧洲的作物多样化和低投入农业,我们研究了萨尔河谷上游陡坡葡萄园中岩石碎片含量高的土壤的总体稳定性变异性摩泽尔地区 (Wawern, Rhineland-Palatinate, Germany)。 [1] 在过去的几十年里,摩泽尔葡萄酒产区的生产面积减少了,主要是陡峭的倾斜葡萄园。 [2]
sloping vineyard located
We studied the effects of three soil management approaches (permanent grassing, chemical weeding, and buffer strips), and the additional impact of tractor passage on soil erosion in a sloping vineyard located in the inner part of Aosta Valley (N-W Italian Alps). [1] Water infiltration, water holding capacity, organic carbon sequestration and protection from extreme events, were considered in a sloping vineyard located in the south of Madrid, Spain. [2]我们研究了三种土壤管理方法(永久除草、化学除草和缓冲带)的影响,以及拖拉机通过对位于奥斯塔山谷(意大利西北部阿尔卑斯山)内部的一个倾斜葡萄园的土壤侵蚀的额外影响。 [1] 在位于西班牙马德里南部的一个倾斜葡萄园中,考虑了水的渗透、持水能力、有机碳封存和防止极端事件。 [2]