Dearing M Denise
Biology Department, University of Utah, 84112, Salt Lake City, UT, USA.
Oecologia. 1996 Nov;108(3):467-478. doi: 10.1007/BF00333723.
The North American pika, Ochotona princeps, is a generalist herbivore that simultaneously selects two distinct diets: one consumed immediately (summer diet), the other harvested, transported, and stored for later consumption (winter diet). I investigated factors influencing diet selection at two sites on the West Knoll of Niwot Ridge, Boulder County, Colorado during 1991 and 1992. The composition of summer and winter diets differed significantly from each other as well as from the relative abundance of food items in the environment. Thus, pikas were not foraging randomly for either diet. To explore winter and summer diet selection, I tested two existing hypotheses: (1) that plant morphology restricts the winter diet breadth to plants that are easily harvested and large, and thereby maximizes the amount collected per foraging effort, or (2) to compensate for nutrients lost during storage, pikas bias their winter diet with high-nutrient species. I also tested the hypothesis that plant secondary compounds may be higher in the winter diet either because they function as preservatives or because pikas delay consumption of these species until the toxins degrade. For individual dietary items, I measured energy, nitrogen, water, fiber, total phenolic, condensed tannin, and astringency contents. There was little evidence to suggest that morphology excluded plants from the winter diet. Plant size was not a good predictor of abundance in the winter diet. Even after harvesting costs had been experimentally removed, cushion plants were still not included in the winter diet. There was weak support for an effect of nutrients on winter diet selection; in three of four cases, the winter diet was significantly lower in water and higher in total energy content as predicted by the nutrient compensation hypothesis. However, other nutrients exhibited no consistent pattern. Nutrients were not reliable predictors of the winter diet in multiple regression analyses. There was strong support for the hypothesis of manipulation of secondary compounds. The winter diet was significantly higher in total phenolics and astringency. Total phenolics were consistent predictors of the winter diet in multiple regression analyses. The winter diets of six additional pika populations contained plant species high in secondary compounds. The results suggest that pikas preferentially select plants with high levels of secondary compounds for their winter diet, possibly because the presence of such compounds promotes preservation of the cache. This behavior may also enable the exploitation of an otherwise unusable food resource, i.e., toxic plants.
北美鼠兔(Ochotona princeps)是一种食性广泛的食草动物,它同时选择两种不同的食物:一种是立即食用的(夏季食物),另一种是采集、搬运并储存起来供以后食用的(冬季食物)。1991年和1992年期间,我在科罗拉多州博尔德县尼沃特岭西坡的两个地点研究了影响食物选择的因素。夏季和冬季食物的组成彼此之间以及与环境中食物种类相对丰度都有显著差异。因此,鼠兔在选择这两种食物时并非随机觅食。为了探究冬季和夏季的食物选择,我检验了两个现有的假设:(1)植物形态限制了冬季食物的范围,使其仅限于易于采集且体型较大的植物,从而使每次觅食所采集的食物量最大化;或者(2)为了补偿储存过程中损失的营养,鼠兔在冬季食物选择上偏向于高营养物种。我还检验了这样一个假设,即冬季食物中植物次生化合物含量可能更高,要么是因为它们起到防腐剂的作用,要么是因为鼠兔会推迟食用这些物种直到毒素降解。对于每种食物,我测量了能量、氮、水、纤维、总酚、缩合单宁和涩味含量。几乎没有证据表明形态因素会将某些植物排除在冬季食物之外。植物大小并不是冬季食物中丰度的良好预测指标。即使通过实验去除了采集成本,垫状植物仍未被纳入冬季食物。对于营养成分对冬季食物选择的影响,仅有微弱的支持证据;在四个案例中的三个中,如营养补偿假设所预测的,冬季食物的水分含量显著较低,总能量含量较高。然而,其他营养成分并没有呈现出一致的模式。在多元回归分析中,营养成分并非冬季食物的可靠预测指标。对于次生化合物受操控这一假设,有强有力的支持证据。冬季食物中的总酚和涩味含量显著更高。在多元回归分析中,总酚是冬季食物的一致预测指标。另外六个鼠兔种群的冬季食物中含有次生化合物含量高的植物物种。结果表明,鼠兔在冬季食物选择上优先选择次生化合物含量高的植物,可能是因为这些化合物的存在有助于储存食物的保存。这种行为也可能使它们能够利用原本无法利用的食物资源,即有毒植物。
