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排序方式: 共有252条查询结果,搜索用时 265 毫秒
1.
Gartenbaurat Friedrich Wenck 《Journal of pest science》1948,21(2):21-22
Ohne Zusammenfassung 相似文献
2.
Joo Carlos de Moraes S Lucien Sguy Florent Tivet Rattan Lal Serge Bouzinac Paulo Rogrio Borszowskei Clever Briedis Josiane Burkner dos Santos Daiani da Cruz Hartman Clayton Giani Bertoloni Jadir Rosa Theodor Friedrich 《Land Degradation \u0026amp; Development》2015,26(6):531-543
The continuous use of plowing for grain production has been the principal cause of soil degradation. This project was formulated on the hypothesis that the intensification of cropping systems by increasing biomass‐C input and its biodiversity under no‐till (NT) drives soil restoration of degraded agro‐ecosystem. The present study conducted at subtropical [Ponta Grossa (PG) site] and tropical regions [Lucas do Rio Verde, MT (LRV) site] in Brazil aimed to (i) assess the impact of the continuous plow‐based conventional tillage (CT) on soil organic carbon (SOC) stock vis‐à‐vis native vegetation (NV) as baseline; (ii) compare SOC balance among CT, NT cropping systems, and NV; and (iii) evaluate the redistribution of SOC stock in soil profile in relation to soil resilience. The continuous CT decreased the SOC stock by 0·58 and 0·67 Mg C ha−1 y−1 in the 0‐ to 20‐cm depth at the PG and LRV sites, respectively, and the rate of SOC sequestration was 0·59 for the PG site and ranged from 0·48 to 1·30 Mg C ha−1 y−1 for the LRV site. The fraction of C input by crop residues converted into SOC stock was ~14·2% at the PG site and ~20·5% at the LRV site. The SOC resilience index ranged from 0·29 to 0·79, and it increased with the increase in the C input among the NT systems and the SOC sequestration rates at the LRV site. These data support the hypothesis that NT cropping systems with high C input have a large potential to reverse the process of soil degradation and SOC decline. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
3.
Friedrich Mechelke 《Genetic Resources and Crop Evolution》1955,3(1):127-135
Zusammenfassung Die Gerstensorte Heines Haisa und die PrimitivformHordeum agriocrithon sind sommerannuell. Beide reagieren auf den Einfluß niedriger Temperaturen während der Keimung mit der Ausbildung einer spezialsegmentartigen Einschnürung im kurzen Arm des VII. Chromosoms in Wurzelspitzen-Metaphasen. Im Gegensatz dazu ist bei der winterannuellen Form Friedrichswerther Berg und dem annähernd winterannuellenHordeum spontaneum die Tendenz zu der gleichen Reaktion bedeutend geringer oder überhaupt nicht vorhanden. Die Möglichkeit, daß die Eigenschaft sommer- bzw. winterannuell in Beziehung zur Funktion heterochromatischer Segmente steht, wird kurz diskutiert. 相似文献
4.
5.
Friedrich Moll 《Forstwissenschaftliches Centralblatt》1925,47(3):225-230
Ohne Zusammenfassung 相似文献
6.
Dr. Friedrich Zacher 《Journal of pest science》1935,11(6):63-66
Ohne Zusammenfassung
Mit 1 Abbildung. 相似文献
7.
Friedrich Moll 《Forstwissenschaftliches Centralblatt》1926,48(8):541-544
Ohne Zusammenfassung 相似文献
8.
European Journal of Forest Research - 相似文献
9.
Friedrich Zednik 《Journal of pest science》1966,39(5):73-74
Ohne Zusammenfassung 相似文献
10.
The objectives of the study were to investigate mineral soil profiles as a living space for microbial decomposers and the relation of microbial properties to soil acidity. We estimated microbial biomass C on concentration (g g–1 DW) as well as on volume basis (g m–2) and the microbial biomass C to soil organic C ratio along a vertical gradient from L horizon to 20 cm in the mineral soil and along a gradient of increasing acidity at five beech forest stands in Germany. Microbial biomass C concentration ranged from 17,000–34,000 g Cmic g–1 DW in the litter layer and decreased dramatically down the profile to 29–264 g Cmic g–1 DW at 15–20 cm depth in the mineral soil. This represents depth gradients of microbial biomass C concentrations ranging from a factor of 65 in slightly acidic and up to 875 in acidic soils. In contrast, microbial biomass C calculated on a volume basis (g Cmic m–2) showed a different pattern since a considerable part of the microbial biomass C was located in the mineral soils. In the soil profile 22–34% of the microbial biomass C was found in the mineral soil at strictly acidic sites and as much as 64–88% in slightly acidic soils. The microbial biomass C to soil organic carbon ratios decreased in general down from the L horizon in the forest floor to 0–5 cm depth in the mineral soils. In strongly acidic mineral soils however, the C to soil organic carbon ratio increased with depth, suggesting a positive relation to increasing pH. We conclude from depth gradients of soil pH and microbial biomass C to soil organic carbon ratio that pH affects this ratio at acidic sites. The inter-site comparison indicates that acidity restricts microbial biomass C in the mineral soils. 相似文献