Menge Bruce A, Lubchenco Jane, Ashkenas Linda R
Department of Zoology, Oregon State University, 97331, Corvallis, OR, USA.
Smithsonian Tropical Research Institute, P.O. Box 2072, Balboa, Republic of Panama.
Oecologia. 1985 Feb;65(3):394-405. doi: 10.1007/BF00378915.
Previous studies indicated that at Taboguilla Island (Gulf of Panama), persistence of many intertidal organisms depended on holes and crevices in the rock as refuges from both vertebrate (fishes) and invertebrate (crabs, gastropods, chitons) consumers. Here, we evaluate the influences of substratum heterogeneity and consumers on patterns of diversity of sessile organisms in this habitat. Local substratum topography is highly variable, ranging from smooth to irregular surfaces. Algal crusts typically dominate all low zone rock surfaces, and most other sessile spegies (invertebrates and foliose algae) occur in holes and crevices. Number (S) and diversity (H') of sessile species is lower on homogeneous surfaces than on heterogeneous surfaces. Rate of increase in S with area sampled is positively correlated with substratum heterogeneity; number of species sampled per transect at a homogeneous site would be about 10 vs 30 to 60 on a heterogeneous site. Large fishes and crabs forage intensively over both substratum types, but cannot enter holes and crevices to eat prey. Gastropods, chitons, limpets, and small crabs feed on both substrata but vary in abundance from hole to hole. Prey mortality is thus intense and constant on open surfaces, but variable in space and time in holes and crevices. When consumers are excluded from the general rock surface, algal crusts are settled upon and overgrown by foliose algae, hydrozoans, and sessile invertebrates, particularly bivalves. Both S and H' first increase, as sessile species invade and become more abundant, and then decrease as the rock oyster Chama echinata begins to outcompete other species and dominate primary space. Hence, consumers normally keep local diversity low by removing most sessile prey from open surfaces.In these experiments, a consumer pressure gradient was established by removing 0, 1, 2, 3, and all of 4 distinct groups of consumers. As predicted by the intermediate disturbance hypothesis, lowest diversity occurred at lowest (total exclusion) and highest consumer pressure (normal condition). Highest diversity occurred at intermediate consumer pressure. Unexplained variation in this relationship is probably due to quantitative and qualitative differences in consumer regime, variation among plots in substratum heterogeneity, and insufficient time for competitive dominance by Chama to be fully expressed. On a small (0.25 m) spatial scale, consumers maintain low diversity by keeping prey scarce and causing local extinctions. On larger spatial scales, they may maintain and even produce high diversity through their interaction with substratum heterogeneity and possibly low dispersal rates of sessile species.
先前的研究表明,在塔博吉拉岛(巴拿马湾),许多潮间带生物的存续依赖于岩石中的孔洞和缝隙,以此作为躲避脊椎动物(鱼类)和无脊椎动物(螃蟹、腹足类动物、石鳖)捕食者的避难所。在此,我们评估了基质异质性和捕食者对该栖息地固着生物多样性模式的影响。当地基质地形变化很大,从光滑表面到不规则表面都有。藻类结皮通常占据所有低潮带岩石表面,而大多数其他固着物种(无脊椎动物和叶状藻类)则出现在孔洞和缝隙中。在同质表面上,固着物种的数量(S)和多样性(H')低于异质表面。S随采样面积的增加速率与基质异质性呈正相关;在同质地点,每个样带采样的物种数量约为10种,而异质地点则为30至60种。大型鱼类和螃蟹在两种基质类型上都大量觅食,但无法进入孔洞和缝隙捕食猎物。腹足类动物、石鳖、帽贝和小螃蟹在两种基质上都有觅食,但在不同孔洞中的数量有所不同。因此,开阔表面上的猎物死亡率很高且持续存在,但在孔洞和缝隙中则随空间和时间变化。当捕食者被排除在一般岩石表面之外时,藻类结皮会被叶状藻类、水螅虫和固着无脊椎动物(特别是双壳类动物)附着并覆盖。随着固着物种的侵入并变得更加丰富,S和H'首先增加,然后随着岩石牡蛎Chama echinata开始胜过其他物种并占据主要空间而下降。因此,捕食者通常通过清除开阔表面上的大多数固着猎物来保持当地多样性较低。在这些实验中,通过去除0、1、2、3和所有4个不同的捕食者组建立了一个捕食压力梯度。正如中间干扰假说所预测的那样,最低多样性出现在最低(完全排除)和最高捕食压力(正常情况)时。最高多样性出现在中等捕食压力时。这种关系中无法解释的变化可能是由于捕食者群落的数量和质量差异、样地间基质异质性的变化,以及Chama的竞争优势没有足够时间完全显现出来。在小(0.25米)空间尺度上,捕食者通过使猎物稀缺并导致局部灭绝来维持低多样性。在较大空间尺度上,它们可能通过与基质异质性的相互作用以及固着物种可能较低的扩散率来维持甚至产生高多样性。
