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71.
Soil architecture is the dominant control over microbially mediated decomposition processes in terrestrial ecosystems. Organic
matter is physically protected in soil so that large amounts of well-decomposable compounds can be found in the vicinity of
largely starving microbial populations. Among the mechanisms proposed to explain the phenomena of physical protection in soil
are adsorption of organics on inorganic clay surfaces and entrapment of materials in aggregates or in places inaccessible
to microbes. Indirect evidence for the existence of physical protection in soil is provided by the occurrence of a burst of
microbial activity and related increased decomposition rates following disruption of soil structures, either by natural processes
such as the remoistening of a dried soil or by human activities such as ploughing. In contrast, soil compaction has only little
effect on the transformation of 14C-glucose.
Another mechanism of control by soil structure and texture on decomposition in terrestrial ecosystems is through their impact
on microbial turnover processes. The microbial population is not only the main biological agent of decomposition in soil,
it is also an important, albeit small, pool through which most of the organic matter in soil passes.
Estimates on the relative importance of different mechanisms controlling decomposition in soil could be derived from results
of combined tracer and modelling studies. However, suitable methodology to quantify the relation between soil structure and
biological processes as a function of different types and conditions of soils is still lacking. 相似文献
72.
Anna-Maj Balsberg-Påhlsson 《Plant and Soil》1995,175(1):125-132
Deschampsia flexuosa (L.) Trin. is an abundant grass species in the ground flora of acidic beech forests in southern Sweden. Generally, the species
is restricted to a limited soil pH range (pH 4–5). The main objective was to study the influence of different soil acidities
on germination, initial root development and on the growth of the species. The experiments were carried out under controlled
conditions and designed to simulate the physico-chemical conditions present in the field. By using forest soils within the
pH range 4.0 to 8.3 and artificial variation in pH (3.2 to 7.6) of soil-water extracts, it was possible to evaluate the influence
of soil reaction and the H+ per se. In all experiments seeds have been used. Germination was significantly delayed in the very acid soil (pH 4.0) in
comparison to the germination in soils within the pH range (4.4 to 6.4). Soil substances, other than the H+, might be responsible for this delay in germination, whereas development of the radicle was markedly affected by increasing
H+ concentrations. Especially the development of root hairs was sensitive to H+ and was significantly reduced at a pH<-3.8. By increasing soil acidity the injury symptoms, including curling and discolouring,
became more intense and at the highest acidity (pH 3.2) the radicles appeared brown, stunted and the root hairs were lacking.
Most favourable growth was obtained at pH 4.4 and 5.0. Soil pH levels above and below this range limited both shoot and root
growth. The results showed very good correspondence with observations made in Beech forest soils in southern Sweden, where
the species was growing in soils within the pH range 3.9 to 5.1 with a peak growth at pH 4.3. This study shows that in soils
at pH≤3.8, the poor development of the radicle may be crucial in the establishment ofDeschampsia flexuosa. Root hair development was more sensitive to soil acidity than radicle elongation. Germination was delayed in very acid Beech
forest soils but other factors than the H-ion per se may be responsible for this delay. 相似文献
73.
Transgenic plants and biogeochemical cycles 总被引:13,自引:0,他引:13
74.
Cludio Estêvo Farias da Cruz Sandra Mrcia Tietz Marques Inês Andretta 《Zoo biology》2019,38(4):384-388
To monitor and evaluate potential risks to birds’ health, invertebrate species that have been used as live food items had their body contents searched for endoparasites. The contents of approximately 10,000 invertebrates were analyzed. A principal component analysis was performed to study the relationship between the presence/absence of endoparasites and the characteristics of the invertebrates. In most of them, including the species preferred by birds such as caterpillars, waxworms, mealworms, most grasshoppers, and spiders, no organism was identified. Such findings suggest a low potential for parasite transmission associated with its consumption by birds. Although they had unknown or even unlikely implications for the birds’ health, gregarines, oxyurides Leidynema sp., and digenetic trematodes Monolecithotrema sp. were found in samples from woodlice, cockroaches, and centipedes, respectively. The only avian parasites observed in this study were Heterakis gallinarum in samples from earthworms and Acuaria spiralis from woodlice. Suggestively, soil invertebrates showed a higher prevalence of endoparasites and may represent a higher potential risk in comparison to the other categories of invertebrates sampled herein. Detritivory and collected origin were also explanatory variables related to the presence of endoparasites in the current study. 相似文献
75.
76.
77.
为了揭示退化高寒草甸逆向转变的驱动因子,通过野外调查和室内分析相结合的方法探究了黄河源不同修复措施(施有机肥F、免耕补播N、施有机肥+免耕补播FN)处理高寒草甸植物群落特征、土壤理化性质和两者相关性的变化规律,阐明不同修复措施对黄河源退化高寒草甸植物群落与土壤养分的影响。结果表明:免耕补播显著增加草甸物种丰富度指数(P<0.05);施有机肥+免耕补播显著增加草甸植物盖度、总生物量、Shannon Wiener多样性指数和Pielous均匀度指数(P<0.05)。不同人工修复后草甸植物功能群地上、地下生物量变化趋势基本一致(除豆科)。和对照相比,莎草科,杂类草地上和地下生物量含量在N、FN处理分别降低83.04%、73.86%、30.43%、92.37%和96.51%、84.09%、85.68%、95.36%;禾本科地上和地下生物量含量在F、N和FN处理分别增加7.29%、23.45%、17.93%和6.04%、4.03%、10.52%;豆科地上生物量含量基本保持不变,地下生物量含量在F、N和FN处理分别降低24.43%、82.19%和42.61%。F显著增加土壤有机碳含量(P=0.033);N显著降低土壤NO3--N含量(P=0.009);FN显著降低土壤pH和增加土壤速效磷含量(P=0.024);F和FN显著增加土壤含水量(P=0.000),N则显著降低土壤含水量(P=0.000);F显著降低土壤容重(P=0.018)。相关性分析表明植物Shannon Wiener多样性和Pielous均匀度与土壤速效磷含量呈显著正相关(P=0.037;P=0.033),土壤有机碳和含水量与总生物量呈显著正相关(P=0.027;P=0.032),pH与盖度呈显著负相关(P=0.049)。冗余度分析结果表明土壤有机碳含量和含水量显著影响了植物群落结构特征,解释率分别为30.3%和19.7%。研究结果表明,因地制宜进行退化高寒草甸施有机肥+免耕补播修复措施,能够明显提高草地生产力,改善草甸植物群落及其土壤养分和水分环境。 相似文献
78.
干旱区灌丛植被空间格局受多种物理和生态过程影响,能够指示生态系统的状态。研究通过量化灌丛斑块大小的空间分布来评估阿拉善高原东南部覆沙荒漠植被生态系统的状态,采用点格局分析法分析灌木种群的相互关系,以阐明不同灌木种在斑块格局形成中的作用,并结合土壤条件及下垫面粗糙度等指标验证评估的准确性,探讨灌丛空间格局差异的内在机理。结果表明,研究区样方2灌丛斑块大小符合截尾幂律分布,其他样方符合对数正态分布,前者的空间结构及生境条件均优于后者,说明植被空间格局可以准确表征生态系统状态。在局地尺度上灌木种内和种间呈现不同的相互关系,以竞争关系为主导是导致斑块破碎化的主要驱动机制。小灌木(如猫头刺)的种内互利关系有利于促进多样化斑块形态的形成,而大灌木(如沙冬青和蒙古扁桃)种间的互利作用则有利于形成异质性更强的复杂空间格局。基于灌丛斑块的空间格局评估生态系统状态,可为保护和恢复生态脆弱区受损植被提供重要的借鉴。 相似文献
79.
混交对亚热带针叶树根际土壤氮矿化和微生物特性的影响 总被引:1,自引:0,他引:1
混交阔叶树是退化红壤区针叶林改造的重要措施之一,土壤养分供应和转化是评价混交效应的重要参数,但混交后针叶树根际土壤氮矿化特征及其影响因素还不清楚。选取退化红壤区马尾松(Pinus massoniana Lamb.)纯林、湿地松(Pinus elliottii Engelmann)纯林及其补植木荷(Schima superba Gardn.et Champ.)形成的马-木混交林和湿-木混交林为研究对象,采集4种林分下针叶树根际土壤,测定速效养分含量、氮矿化速率、氮水解酶活性和微生物磷脂脂肪酸含量,探究混交对针叶树根际土壤氮供应及微生物特性的影响,分析土壤氮矿化和微生物特性间的相关性。结果表明:混交显著增加了针叶树根际土壤铵态氮,矿质氮和有效磷含量,而对硝态氮影响不显著。根际土壤氮矿化以硝化作用为主,混交后针叶树根际土壤氨化速率降低了27.0%,硝化速率增加了55.4%,而最终净氮矿化速率增加了24.1%。两个树种间,马尾松根际土壤矿质氮含量和净氮矿化速率显著高于湿地松。针叶树根际土壤真菌、丛枝菌根真菌,总微生物生物量及真菌/细菌比在混交后显著增加,且马尾松根际土壤总微生物和真菌生物量分别比湿地松高18.9%和27.0%。同时,针叶树根际土壤β-N-乙酰氨基葡萄糖苷酶活性在混交后显著增强,且根际土壤硝化速率和净氮矿化速率与微生物指标和酶活性正相关。总的来说,混交阔叶树显著提高了针叶树根际土壤氮供应,以此应对阔叶树混交后带来的养分竞争压力,而马尾松倾向于积极性的应对策略,通过增加土壤氮矿化以适应外界环境改变。 相似文献
80.