啮齿动物捕食和搬运蒙古栎种子对种群更新的影响

2010-2011年,在东北林业大学城市林业示范基地研究了啮齿动物对蒙古栎种子的捕食和搬运。结果表明,蒙古栎种子捕食率在年际间无显著差异,但2010年的蒙古栎种子搬运率显著高于2011年,存留率显著低于2011年。啮齿动物在胡桃楸林、樟子松林、水曲柳林和白桦林内对蒙古栎种子的总捕食率和总搬运率分别达到(5.7±13.5)%和(27.1±37.1)%。蒙古栎种子在樟子松林内的捕食率和搬运率均最高,胡桃楸林内蒙古栎种子存留率最高;2010年蒙古栎种子在与蒙古栎林边缘距离0,10,20,30,40,50m组间的捕食率无显著差异,搬运率和存留率有显著差异,但2011年蒙古栎种子在不同距离组间的捕食率呈显著差异,搬运率和存留率无显著差异。与蒙古栎林边缘距离20m处蒙古栎种子的捕食率最高。2010年和2011年,分别有(37.8±49.7)%和(27.7±49.8)%的蒙古栎种子被啮齿动物利用,这表明啮齿动物是林业示范基地内蒙古栎地表种子的主要捕食者。冬季食物匮乏秋季贮藏种子是造成啮齿动物对蒙古栎种子有较大捕食、扩散压力的主要原因。因此,啮齿动物对蒙古栎种子的捕食和搬运影响了蒙古栎林的种群更新。     

啮齿动物对种子的传播

简要介绍了扩散、传播植物种子的啮齿动物种类、它们传播的植物种子种类,以及啮齿动物对植物种子扩散、传播的主动、被动方式及双方在这一体系中的互惠关系和可能存在的协同进化关系。     

小泡巨鼠和社鼠对珍稀濒危植物红豆树种子的捕食和扩散作用

红豆树(Ormosia hosiei)为我国特有的国家Ⅱ级保护珍稀濒危植物,有关动物对种子的捕食和扩散作用是否影响其种群更新目前尚无研究.2009年秋季,我们在四川省都江堰地区利用大型实验围栏研究了小泡巨鼠(Leopoldamys edwardsi)和社鼠(Niviventor confuciamus)对红豆树种子的捕食和贮藏格局,以便了解鼠类在红豆树种子扩散中的潜在作用.结果表明小泡巨鼠和社鼠均取食红豆树种子,但二者贮藏种子的方式不同:社鼠主要集中贮藏种子,对红豆树种子的扩散作用不大,而小泡巨鼠则主要分散贮藏种子,故对红豆树种子有一定的扩散作用.研究结果说明尽管鼠类可通过捕食而降低种子存活,但分散贮藏的鼠种能促进红豆树种子的扩散,从而有利于其种群维持.     

啮齿动物对不同林木种子的搬运和取食微生境选择机制

不同植物种子依靠不同的方式实现扩散,啮齿动物对林木种子搬运后在取食点微生境和贮藏方式的选择存在偏好,研究其贮藏行为与微生境的关系是探究幼苗建成的关键。在秦岭中段火地塘林区,采用标签标记法,以锐齿槲栎、华山松和油松种子为材料,探究了小型啮齿动物对松栎混交林建群种种子扩散过程的影响。结果表明:1)油松种子原地取食率显著高于锐齿槲栎和华山松种子,且啮齿动物更倾向于搬运后取食(60%)和埋藏(4.33%)华山松种子,搬运后取食距离也为华山松最大(2.49 m);锐齿槲栎小种子被搬运后埋藏的距离最大(4.92 m)。2)除华山松种子外,其他类型种子被搬运后单个取食的比例均在85%以上;油松种子不存在埋藏点,而其他类型种子90%以上均以单个形式被埋藏。3)大部分种子被啮齿动物搬运后选择在裸地丢弃;锐齿槲栎大种子(87.5%)、小种子(78.57%)和华山松种子(53.33%)较大比例被啮齿动物埋藏在灌丛下方,埋藏在裸地的种子较少。4)大部分种子在灌丛下方被取食,仅华山松种子被啮齿动物搬运到洞穴取食;除油松种子被大量原地取食外,其他类型种子被搬运到取食点的种子比例基本呈现由微生境植被复杂到简单(灌丛—草丛—灌丛边缘—裸地)而逐渐减小的趋势。种子的营养价值及取食和搬运过程中啮齿动物付出的成本是影响种子命运的关键性因子,且啮齿动物对种子埋藏和取食地点的微生境存在较明显的选择性。     

啮齿动物对北京小龙门林场辽东栎地表种子的扩散

20 0 0年 9月至 10月在小龙门林场选取两块辽东栎林样地 ,在地表分别针对无脊椎动物 (处理 1)、啮齿动物和无脊椎动物 (处理 2 )、所有扩散者 (处理 3)、所有扩散者但具隐蔽性 (处理 4 )设置 4种试验处理 :两样地 4种处理各设置 0 5m× 0 5m的地表样方 5个 ,在样方内放置饱满和虫损辽东栎种子各 2 0粒 ,每样地全部样方共布放种子 80 0粒 ;4种处理的种子累计丢失情况共调查 9次。有网罩的处理 1无种子丢失 ;两样地处理 2和处理 3之间种子丢失量均无显著差异 (P >0 0 5 ) ;处理 2、 3种子丢失量均显著多于处理 4。在两样地中 ,不仅处理 2中饱满种子与虫损种子丢失量差异均显著 (样地 1:t =2 4 0 7,P <0 0 5 ;样地 2 :t =2 6 5 ,P <0 0 5 ) ,而且处理 3中亦然 (t=3 2 0 9,P <0 0 5 ;t =3 0 92 ,P <0 0 5 ) ;两样地中被啃咬的饱满种子都显著多于虫损种子 (χ2 =14 75 ,P <0 0 5 ;χ2 =9 85 ,P <0 0 5 )。标记重捕结果显示该地区啮齿动物群落包括朝鲜姬鼠等 4种小型哺乳动物 ,其中朝鲜姬鼠占啮齿动物群落的 74 4 %。以上结果说明该地区辽东栎种子主要扩散者是啮齿动物 ,鸟类和无脊椎动物对种子扩散无明显影响 ;地表微环境可降低种子被取食的几率 ;啮齿动物优先选择饱满种子 ,对种子质量有明显选     

啮齿动物对六盘山区辽东栎、野李和华山松种子的取食和搬运

为了阐明不同种子投放方式和覆盖处理对啮齿动物取食和搬运/贮藏种子行为的影响,2010年春季,我们在宁夏六盘山区的辽东栎幼林,用塑料标签标记法研究了不同种子投放方式(单独投放、两两组合投放和混合投放)和覆盖处理(对照、凋落物覆盖和土壤覆盖)下啮齿动物对辽东栎、野李和华山松种子的取食和搬运特点。结果表明:(1)不同物种、不同种子投放方式和覆盖处理对种子的就地取食率、搬运后的取食率和贮藏率均具有显著影响,种子较大或具有厚而坚硬的种皮(内果皮)、组合和混合投放及覆盖处理均不同程度地促进啮齿动物对种子的搬运;(2)3种植物的种子被搬运后取食和贮藏的平均距离范围均在5.5m以内,而且种子被搬运后贮藏的距离均大于搬运后取食的距离,其中华山松种子被搬运后取食的距离显著大于辽东栎和野李种子,但搬运后的贮藏距离显著小于后两者。(3)种子被搬运后单个种子的取食点和贮藏点占多数,其他大小的取食点和贮藏点较少,种子被搬运后以土壤埋藏为主要的贮藏方式。结果表明,种子的种皮特征以及种子在群落中的分布方式和存在状态,可能通过延长啮齿动物处理的时间而增大啮齿动物的被捕食风险,使动物改变对种子的取食和搬运行为,进而决定了种子的命运。     

啮齿动物和鸟类对红松种子的消耗

2006—2007年在长白山相同海拔的阔叶红松林和白桦林样地内研究了啮齿动物和鸟类对红松球果种子的消耗情况.结果表明：阔叶红松林中啮齿动物对红松球果种子的消耗量明显大于鸟类（P<0.01）,而白桦林中鸟类的消耗量明显大于啮齿动物(P<0.01);两林型中啮齿动物的总消耗量明显大于鸟类,二者差异极显著(P<0.01).啮齿动物对阔叶红松林中埋藏种子的消耗量显著多于白桦林,两林型中啮齿动物对埋藏种子的消耗量均随埋藏深度的增加而减少.     

都江堰林区取食樱桃果实(种子)的鸟类及其种子扩散作用

樱桃(Prunus pseudocerasus)是广泛分布于我国亚热带常绿阔叶林内的一种重要核果植物。为了解食果鸟类在樱桃种群更新中的作用,于2007年和2008年在四川都江堰亚热带常绿阔叶林内研究了取食樱桃果实(种子)的鸟类及其种子扩散作用。研究表明,樱桃成熟果实的下落高峰发生在4月下旬至5月上旬;2007年的种子扩散率为4.0%±1.0%,明显低于2008年(27.7%±5.7%)。在研究地内,发现至少有16种鸟取食樱桃果实或种子,根据其对果实和种子的处理方式分为3个功能群:白头鹎(Pycnontus sinensis)、领雀嘴鹎(Spizixos semitorques)、黑鹎(Hypisipetes leucocephalus)、白颊噪鹛(Garrulax snnio)、红嘴蓝鹊(Urocissa erythorhyncha)等10种鸟吞食樱桃果实,而种子通过消化道末端排出并将种子携至远离母树的地方,是重要的种子扩散者;暗绿绣眼鸟(Alcippe morrisonia)和灰眶雀鹛(Zosterops iaponicus)等4种鸟主要啄食果肉而将种子丢弃在母树下,为啄食果肉者;而普通朱雀(Carpopacus erythrinus)和灰头鸦雀(Paradoxornis gularis)则主要取食种子,为纯粹的种子捕食者。在吞食樱桃果实的食果鸟中,3种鹎科鸟类访问频次所占的比例达55.3%(2007年)和35.3%(2008年),说明鹎科鸟类是都江堰林区樱桃种子的主要扩散者,对樱桃种群的空间格局和自然更新可能有重要影响。     

啮齿动物对植物种子的多次贮藏

啮齿动物对种子的多次搬运和贮藏是极为复杂的行为过程,既是对自己贮藏物进行管理、防御竞争者盗食的一种策略,也是盗食其它个体贮藏物的一种食物利用方式。此外,啮齿动物多次贮藏种子的过程实际上也是植物种子的多阶段扩散过程,因而对植物更新产生重要影响。本文综述了啮齿动物对植物种子多次贮藏的研究进展,分析了多次贮藏种子的原因,并从啮齿动物与植物的相互关系上探讨其生态学意义。     

贮藏种子的啮齿动物对油茶种子沉积形式的影响

种子沉积的质量常常涉及种子扩散作用者(如鸟类和小型啮齿动物)对生境和微生境的选择以及种子沉积的形式(如种子埋藏).然而,很少的研究涉及到种子在离开母树后被这些动物沉积在何处.在四川省都江堰一个实验林场的2个林分(次生林和原生林)内,通过追踪用带编号的金属薄片标记的油茶(Camellia oleifera Abel.)种子的命运,研究了贮藏种子的啮齿动物对种子沉积的影响.研究发现:在2个林分内,80%以上的种子被很好地埋藏在0～60 mm深的土壤中,而小部分种子则被放置在地表(但有少量落叶遮盖).小型啮齿动物喜好在灌丛下或灌丛边缘贮藏和取食种子,可能是在这样的微生境下它们在觅食时将遭遇较小的捕食风险.研究还发现,贮藏点的微生境分布随贮藏点等级而逐渐变化:在两个林分内较高等级的贮藏点(如次贮藏点和三级贮藏点)比初级贮藏点有更多的种子被贮藏在灌丛下或灌丛边缘.这表明,啮齿动物对油茶种子的埋藏可能更有益于种子的存活、萌发以及幼苗的建成.啮齿动物将散落在母树下或其附近的油茶种子扩散到不同的微生境,这可能有利于他们遭遇到更多的适宜环境而萌发,实现幼苗补充.     

Seed Predation by Rodents and Implications for Plant Recruitment in Defaunated Atlantic Forests

Rodents are known to perform post‐dispersal seed predation in tropical rain forest, but there is little information on the identity of these seed predators and how they select their seeds. Using cafeteria experiments, we found that seed mass, rodent body mass, and the ratio of seed/rodent mass were determinants of seed consumption.     

Mammal Abundances and Seed Traits Control the Seed Dispersal and Predation Roles of Terrestrial Mammals in a Costa Rican Forest

In Neotropical forests, mammals act as seed dispersers and predators. To prevent seed predation and promote dispersal, seeds exhibit physical or chemical defenses. Collared peccaries (Pecari tajacu) cannot eat some hard seeds, but can digest chemically defended seeds. Central American agoutis (Dasyprocta punctata) gnaw through hard‐walled seeds, but cannot consume chemically defended seeds. The objectives of this study were to determine relative peccary and agouti abundances within a lowland forest in Costa Rica and to assess how these two mammals affect the survival of large seeds that have no defenses (Iriartea deltoidea, Socratea exorrhiza), physical defenses (Astrocaryum alatum, Dipteryx panamensis), or chemical defenses (Mucuna holtonii) against seed predators. Mammal abundances were determined over 3 yrs from open‐access motion‐detecting camera trap photos. Using semi‐permeable mammal exclosures and thread‐marked seeds, predation and dispersal by mammals for each seed species were quantified. Abundances of peccaries were up to six times higher than those of agoutis over 3 yrs, but neither peccary nor agouti abundances differed across years. Seeds of A. alatum were predominantly dispersed by peccaries, which did not eat A. alatum seeds, whereas non‐defended and chemically defended seeds suffered high levels of predation, mostly by peccaries. Agoutis did not eat M. holtonii seeds. Peccaries and agoutis did not differ in the distances they dispersed seeds. This study shows that seed fates are contingent upon many factors such as seed defenses, frugivore–granivore abundances, and seed‐handling capabilities. Mammal–seed interactions are complex; the outcomes of these interactions depend on the inherent characteristics of seeds and their potential dispersers.     

Size-Related Differential Seed Predation in a Heavily Defaunated Neotropical Rain Forest

Hunting and habitat loss represent an increasingly common anthropogenic impact. Available evidence suggests that defaunation is typically differential: medium/large mammals are most affected while small rodents are less affected, or even favored. In heavily impacted areas, such as Los Tuxtlas, the residual mammalian fauna is dominated by small rodents. We tested the expectation that if small rodents will preferentially attack small-seeded species, large-seeded species may escape predation in the absence of medium/large seed predators and that this may affect germination and, possibly, recruitment. Experiments with caged rodents ( Heteromys desmarestianus ) under laboratory conditions showed a preference for smaller seeds. A field experiment involving seeds of contrasting size showed that small, unprotected seeds experienced a predation risk 30-times larger than protected seeds, while the effect of protection was not significant for large seeds. These patterns of predation led to significant differences in germination: protected small-seeded species had a fourfold greater germination than unprotected small-seeded species, while germination was not significantly different between exposed and protected large seeds. The observed contrasts in germination suggest that under heavy defaunation, small-seeded species are likely to be penalized by the overabundance of small rodents, while large-seeded species escape predation. Our results are consistent with the observation of dense seedling carpets dominated by large-seeded species in the understory of Los Tuxtlas. We speculate that the patterns we uncovered may explain, at least partly, the impoverished diversity of the understory vegetation that characterizes heavily defaunated understories and that this has the potential to affect forest regeneration.     

浙江天童国家森林公园鼠类对石栎种子的捕食和传播

研究了浙江天童国家森林公园鼠类对石栎(Lithocarpus glaber)(常绿阔叶林重要伴生种)种子的捕食和传播.共设置了带1、带2、带3(常绿阔叶林中)、带4(马尾松林中)和带5(灌丛中)5条样带及2种种子的布置方式(有无掩盖和有无标签).结果表明,社鼠(Niviventer confucianus)和针毛鼠(Niviventer fulvescens)是石栎种子潜在的捕食和传播者.损失种子可以分为3类:即Ⅰ类种子被吃,标签连着种子的残余部分;Ⅱ类种子被搬走,仅标签留在原地;Ⅲ类是标签和种子均消失.实验观察前期,种子损失量较大,随后逐渐降低;种子的日消失率在整个实验期间具有明显的波动,带2的日均消失率最高,为1.03％,带5的日均消失率最低(0.32％).3种种子命运所占比例在5个样带中存在差异,与不同样带的植被组成密切相关.有掩盖和无掩盖放置方式之间存在显著差异(P<0.05),前者的日消失率明显低于后者,而有无标签之间则无显著性差异(P>0.05).种子被鼠类搬运的最远距离为6.7 m.     

Increased Productivity and Reduced Seed Predation Favor a Large‐seeded Palm in Small Atlantic Forest Fragments

Large‐seeded plants are especially vulnerable to the loss of seed dispersers in small forest fragments. The palm Attalea humilis goes against this trend by reaching high abundances in small remnants. Productivity, seed dispersal and seed predation of A. humilis were investigated in two large (2400 and 3500 ha) and three small (19, 26 and 57 ha) Atlantic Forest fragments in southeastern Brazil. Palms in the small fragments produced more female inflorescences, resulting in a higher fruit production in these places. Seed dispersal rates were higher in the large fragments, where scatter hoarding was more frequent. Scolytine beetles were the main seed predators and damaged a larger number of seeds in small fragments, but predation by rodents and bruchine beetles was low irrespective of fragment size. As scolytines do not necessarily kill the seeds, low predation by bruchines and rodents, together with its own high productivity, allow A. humilis to be more abundant in small fragments despite the scarcity of its main dispersers. This increased abundance, by its turn, can increase competitive interactions between A. humilis and other plants in small fragments. Thus, abundance patterns of A. humilis are a good example of fragmentation affecting the balance of ecological interactions in a complex way, emphasizing the role of preserving ecological processes for conserving biodiversity in fragmented tropical landscapes. Abstract in Portuguese is available at http://www.blackwell‐synergy.com/loi/btp .     

Seed Dispersal by Monkeys and the Fate of Dispersed Seeds in a Peruvian Rain Forest1

Primary seed dispersal by two species of monkeys and the effects of rodents and dung beetles on the fate of dispersed seeds are described for a rain forest in southeastern Perú. During the six-month study period (June–November 1992) spider monkeys (Ateles paniscus) dispersed the seeds of 71 plant species, whereas howler monkeys (Alouatta seniculus) dispersed seeds of 14 species. Spider and howler monkeys also differed greatly in their ranging behavior and defecation patterns, and as a consequence, produced different seed rain patterns. Monkey defecations were visited by 27 species of dung beetles (Scarabaeidae). Dung beetles buried 41 percent of the seeds in the dung, but the number of seeds buried varied greatly, according to seed size. Removal rates of unburied seeds by rodents varied between 63–97 percent after 30 d for 8 plant species. The presence of fecal material increased the percentage of seeds removed by seed predators, but this effect became insignificant with time. Although seed predators found some seeds buried in dung balls (mimicking burial by dung beetles), depth of burial significantly affected the fate of these seeds. Less than 35 percent of Brosimum lactescens seeds buried inside dung balls at a depth of 1 cm remained undiscovered by rodents, whereas at least 75 percent of the seeds escaped rodent detection at a depth of 3 cm and 96 percent escaped at 5 cm. Both dung beetles and rodents greatly affected the fate of seeds dispersed by monkeys. It is thus important to consider postdispersal factors affecting the fate of seeds when assessing the effectiveness of frugivores as seed dispersers.     

Massive Seed Predation of Pseudobombax grandiflorum (Bombacaceae) by Parakeets Brotogeris versicolurus (Psittacidae) in a Forest Fragment in Brazil1

Here we report massive seed predation of Pseudobombax grandiflorum (Bombacaceae) by Botogeris versicolurus (Psittacidae) in a forest fragment in Brazil. The intensity of seed predation was very high when compared to other studies in continuous forest, perhaps resulting from a scarcity of resources in such areas. This scarcity may limit the range of parrot's diet to a few plant species. It suggests that studies of Psittacidae seed predation may be important for conservation of some plants in fragments.