落叶、涝渍和粪粪对黄松的分布规律有影响。

E. Merrill, P. J. Colberg
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引用次数: 5

摘要

潮湿的草地是美国落基山脉北部最多产的群落之一,但也是对本土有蹄类动物和家畜最敏感的。这些草甸通常在春季和初夏被洪水淹没,但在夏季相对干燥。为了确定剪枝和淹水对剪枝后植物恢复的交互作用,我们以丛状毛草(Deschampsia caespitosa, L.)为研究对象。在温室试验中,1次和2次剪枝处理和不剪枝处理对6周和10周涝渍处理的影响。本试验旨在模拟该地区湿草地优势种上本地和家养食草动物生长季节的早、晚模式。淹水植株表面根系比例较高,茎长至第一片轴叶,分蘖开花比例增加,但地上产量和分蘖高度仅随粪便的添加而增加。当不添加粪便时,根系生物量随涝渍而下降,第二次落叶加剧了涝渍对根系的负面影响。短时间涝渍的落叶处理提高了地上部氮素浓度和氮素产量/根系生物量,而连续涝渍降低了地上部氮素浓度。粪修正并没有扭转这种影响。虽然长期淹水与适度的落叶率相结合并没有减少黄松的地上生物量,但却加剧了黄松的总根系损失,导致根系向较浅的分布转移,并改变了草食动物地上生物量的N浓度。DOI: 10.2458 / azu_jrm_v56i6_merrill
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Defoliation, waterlogging and dung influences allocation patterns of Deschampsia caespitosa.
Wet meadows are some of the most productive communities in the northern Rocky Mountains, USA but are also among the most sensitive to grazing by native ungulates and domestic livestock. These meadows typically are inundated with floodwater in spring and early summer but are relatively dry in summer. To determine the interactive effects of clipping and flooding on plant recovery after clipping, we subjected plants of tufted hairgrass (Deschampsia caespitosa (L.) Beauv) to 6-week and 10-week waterlogging treatments in combination with 1 and 2 clipping events, with and without dung amendment in a greenhouse experiment. The experiment was designed to mimic early and late growing-season patterns of herbivory by native and domestic herbivores on a dominant species of wet meadows of this region. Waterlogged plants produced a higher percentage of roots at the surface, elongated stems to the first axial leaf, increased the proportion of tillers that flowered, but increased aboveground yield and tiller height only with the addition of dung. Root biomass declined with waterlogging when dung was not added, and a second defoliation exacerbated the negative effects of waterlogging on roots. Defoliation with short-duration waterlogging increased shoot nitrogen (N) concentration and N yield/root biomass, while continuous waterlogging reduced shoot N concentration of aboveground biomass. Dung amendment did not reverse this effect. Although extended flooding in combination with moderate rates of defoliation did not reduce aboveground biomass of Deschampsia caespitosa, it aggravated total root loss, caused shifts to a shallower root distribution, and altered N concentration of aboveground biomass for herbivores. DOI:10.2458/azu_jrm_v56i6_merrill
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