Spider assemblage ( Arachnida : Araneae ) associated with canopies of Vochysia divergens ( Vochysiaceae ) in the northern region of the Brazilian Pantanal

This study describes the composition and temporal variation of the spider assemblage (Arachnida: Araneae) associated with canopies of Vochysia divergens Pohl. (Vochysiaceae) in the northern region of the Brazilian Pantanal. Three V. divergens plants were sampled in 2004, at each seasonal period of the northern Pantanal (high water, receding water, dry season and rising water), using thermonebulization of the canopies with insecticide, totaling 396 m2 of sampled canopies. Analysis of abundance and richness of spider families were based on Non-Metric Multidimensional Scaling (NMDS) and Variance Analysis (ANOVA and MANOVA). A total of 7,193 spiders were collected (6,330 immatures; 88.0%; 863 adults, 12.0%) distributed in 30 families. Araneidae (1,676 individuals), Anyphaenidae (1,631 individuals), Salticidae (1,542 individuals) and Pisauridae (906 individuals), were predominant, representing 80.0% of the sample. Ten different guilds were registered: aerial hunters, orb-weavers, nocturnal aerial runners and diurnal space web weavers dominated, sharing most ecological niches. The spider assemblage is affected by changes in the habitat structure, especially by the seasonal hydrological regime and variations in the phenology of V. divergens. The assemblage is composed of different groups of spiders. The dominant taxa and behavioral guilds differ in the different seasonal periods. Spiders were more abundant during the dry and rising water seasons, most likely reflecting a greater supply of potential prey, associated with new foliage and flowering at the canopy. The displacement of soil dwelling spiders to the trunks and canopies before and during the seasonal floods can change the structure and composition of the canopy assemblages. Oonopidae, Gnaphosidae and Caponiidae, were more frequent during the rising and high water seasons, which indicates that these taxa use the canopies of V. divergens as a refuge during the seasonal flooding in the Pantanal.

Arthropod communities associated with canopies of typical vegetation formations of the northern region of the Pantanal have been studied in recent years (e.g., Marques et al. 2001, 2006, Battirola et al. 2005, 2007, 2014).Spiders, considered the main predators of arthropods in most biomes (Cardoso et al. 2011), are mentioned in these studies as being important components of these communities, with specific assemblages on each host plant (santos et al. 2003, Battirola et al. 2004, Marques et al. 2007, 2011).
The different composition of spider assemblages most likely reflects the complexity of habitats in the Pantanal.The geological and geomorphological history of this biome, together with its position on the banks of large phytogeographic domains (nunes-da-Cunha & Junk 1999, 2014), associated with water seasonality (Junk et al. 1989), results in a variety of landscapes, vegetation types (including monodominant forests) and habitats with specific characteristics (silva et al. 2000 ), causing terrestrial organisms to develop specific strategies to survive and adapt to the strong seasonality of this floodplain (adis et al. 2001(adis et al. , Battirola et al. 2009).Among the monodominant vegetation types in the northern region of the Pantanal of Mato Grosso, the "cambarazais" are outstanding (silva et al. 2000).These are seasonally flooded forests with dominance of Vochysia divergens Pohl.(Vochysiaceae) (arieira & nunes-da-Cunha 2006).Vochysia divergens is considered invasive to native pastures, posing a problem for the local people, who rely on native grasslands for livestock (Pott & Pott 1994, nunes-da-Cunha et al. 2000, nunes-da-Cunha & Junk 2004).While V. divergens is characterized as a problem for landowners, it is ecologically important as a habitat and refuge for the wildlife (Pott & Pott 1994, FassnaCht 1998, Marques et al. 2006), mainly when it is a fully grown tree (nunes-da-Cunha & Junk 2014).
The distribution and species richness of predators like spiders may be influenced by the structural conditions of the host plants even though they do not generally have a direct relationship with these plants (raizer & aMaral 2001, souza & Martins 2004, 2005, souza & Módena 2004), or by changes in environmental conditions (Wolda 1988).Spiders depend on plant structures to attach their webs and to forage.Plant phenology (flowering, fruit development and leaf fall periods), the distribution of food resources such as the presence of potential prey, often represented by herbivorous insects associated with that host, are also important to these arachnids (Costello & daane 1995, rinaldi & Forti 1997, sChaik et al. 1993, arango et al. 2000).
Considering the importance of conservation and management of the specific monodominant forests of V. divergens in the Pantanal, as well as the biological diversity associated with these habitats, this study analyzed the composition and temporal variation of the spider assemblage in V. divergens canopies.Our goal was to evaluate the use of this habitat by spiders over different seasonal periods, in the northern region of the Pantanal of Mato Grosso, Brazil.
Twelve specimens of V. divergens were nebulized using thermonebulization of the canopies, three individuals in each seasonal period (high water, receding water, dry season and rising water in 2004).The sampled trees were selected according to the criteria proposed by adis et al. (1998), and the methodological procedures according to Battirola et al. (2004).The entire diameter at the base of these trees was surrounded by nylon funnels (1 m in diameter each), distributed according to the shape and architecture of the canopy, bringing to a total of 396 m 2 of assessed canopies (33 m 2 per tree sampled).These collector funnels had a plastic collection bottle (1 L) at their base with 92% ethanol and were suspended at about 1 m from the ground by strings tied to surrounding trees.During the high water period the funnels were suspended at 2.5 m above the ground due to flooding of the forest (water depth ranging from 0.9 to 1.25 m).The nebulization was applied for 10 minutes using a Swingfog SN50 thermonebulizator, employing the non-residual synthetic pyrethroid (Lambdacialotrina at 0.5% -Icon ® ), diluted in diesel oil at a concentration of 1%, associated with the synergistic (DDVP 0.1%).This nebulization was performed at around 6:00 am, during less intense air circulation, which allows the cloud of insecticide to slowly rise through the canopy, without dispersion (adis et al. 1998).
The collected material was transported to the Laboratório de Ecologia e Taxonomia de Artrópodes (LETA) at the Instituto de Biociências, Universidade Federal de Mato Grosso in Cuiabá, MT, and subsequently forwarded for identification to the Laboratório Especial de Coleções Zoológicas, Instituto Butantan, São Paulo, SP, where it is deposited.The behavioral guilds were determined according to höFer & BresCovit (2001) and dias et al. (2010).
Data from the spider assemblage were analyzed using the ordination method by Non-Metric Multidimensional Scaling (NMDS) for the abundance and presence-absence (qualitative) of families (adults + immatures), in order to reduce the dimensionality of information from multiple taxa (Clarke 1993).The dissimilarity between the sampling units was calculated using the associative matrix by means of the Bray-Curtis and Sørensen Index.Multivariate Analysis of Variance (MANOVA) was employed using the scores of NMDS dimensions with data of abundance and presence-absence, and Analysis of Variance (ANOVA) using a NMDS axes for presence-absence, associated with the a posteriori Tukey test.These analyses test the existence of average differences in the composition of the spider assemblage using categorical variables (high water, receding water, dry season and rising water).They were carried out using the free software R 2.12.1 (r Core teaM 2013), Vegan package (oksanen et al. 2014).
Little variation was observed in the dominant groups in each seasonal period evaluated.Araneidae, Anyphaenidae, Salticidae and Pisauridae predominated in all periods evaluated, accompanied by Theridiidae (high water), Dictynidae (receding water and dry season), and Thomisidae (rising water).Individuals of some families were recorded exclusively in only one of the seasonal periods.Selenopidae and Caponiidae were sampled only during the high water season, and Prodidomidae in the rising water.During receding water, a period with the highest abundance of spiders in V. divergens canopies, the unique occurrence of Amaurobiidae, Ctenidae, Mysmenidae, Senoculidae, Theridiosomatidae, Trechaleidae and Uloboridae was observed (Table 2).The presence-absence data for families per season, show that the coefficient of variance captured by ordering with a NMDS axis was 61.2% (stress 0.27), indicating that the number of families varied significantly between seasons (ANOVA: F 3.8 = 8.29, p < 0.01); differences were significant both  for rising and high water (Tukey, = 0.02), rising and receding water (Tukey, p = 0.02), respectively (Fig. 3).
In canopies of V. divergens, the phenology of the plant and the hydrological seasonality of the Pantanal are the two main factors in the structuring of this habitat.Due to the pronounced water seasonality in the Pantanal ecosystem, many species have developed morphological, physiological and phenological adaptations, e.g.synchronizing their stages of development to the specific seasonal periods of the region.The phenology of V. divergens is associated with seasonal flooding with renewal of foliage and flowering occurring during the receding water and dry season, respectively (nunes-da-Cunha & Junk 2004).These periods correspond to those with frequent occurrence their canopies.This fluctuation probably reflects the greater supply of potential prey, caused by changes in canopy structure, e.g., the advent of new foliage and flowering which increase the availability of resources for herbivorous species that may be potential prey for spiders (e.g., Marques et al. 2006).The change in the canopy structure of V. divergens expands the area that can be used by spiders (immatures and adults) for fixing their webs, as well as foraging and refuge areas, mainly for immatures, representing the majority of the assemblage.
The spider assemblage in V. divergens canopies is indirectly influenced by water seasonality: 1) by its direct influence on the phenology of the host plants and 2) by inciting the displacement of soil organisms to the trunks and canopies before and during the seasonal floods.The seasonal fluctuation of taxa such as Oonopidae, Gnaphosidae and Caponiidae in V. divergens canopies shows this behavior, indicating that soil spiders move to higher layers of the habitats such as trunks and canopies, to survive during the flood periods, which was observed in ants and millipedes in the same region (adis et al. 2001(adis et al. , Battirola et al. 2009)).
Similarly, adis (1981,1992) sustained that migration from the ground to the forest canopy in the Central Amazon begins during the rising water period, already ten to eight weeks prior to forest inundation.Battirola et al. (2010) reported, for the same forest in the Pantanal, that activity density of ground dwelling spiders is higher in periods of rising water and high water than in the other periods, especially for Oonopidae and Gnaphosidae.The greater movement of spiders coincides with the flooding, which forces these arachnids and other invertebrates to move continuously, seeking refuge, in a similar manner as recorded at the Central Amazon (adis 1981, 1997).
The dominance of four spider families in V. divergens canopies is most likely due to niche sharing and the smaller niche overlap of these spiders, since they represent a distinct behavioral guild.Differences between the dimensions of the ecological niches may reduce competition and facilitate the coexistence of species (sChoener 1974, gilBert et al. 2008).Araneidae (orb weavers) and Pisauridae (diurnal space web weavers) represented the weavers and Anyphaenidae (aerial hunters) and Salticidae (nocturnal aerial runners) the hunters.The most important prey for spiders are arthropods.However, competition may be reduced by adopting diverse foraging methods, such as type of prey, circadian rhythm (day and night), vertical stratification Ten behavioral guilds were found in V. divergens canopies (Table 2).Aerial hunters (1,761 ind.), orb weavers (1,687 ind.), nocturnal aerial runners (1,651 ind.) and diurnal space web weavers (1,475 ind.) predominated.Both diurnal and nocturnal aerial ambushers were represented with only 245 and 60 individuals, respectively.The guilds varied in relation to seasonal periods (ANOVA: F 9.30 = 9.17, p < 0.01).Orb weavers and aerial hunters predominated over all periods, accompanied by diurnal space web weavers and nocturnal aerial runners.
A considerably differentiated pattern was observed for the clusters of soil dwelling spiders that were represented by nocturnal ground runners (122 ind.), ground runners (60 ind.), ground weavers (47 ind.) and nocturnal ground hunters (3 ind.).Ground runners (Gnaphosidae and Prodidomidae) and nocturnal ground runners (Oonopidae) were more frequent during the rising water season.Caponiidae (nocturnal ground hunters) were only sampled during the high water, while Titanoecidae (ground weavers), although they occurred during rising water and in high water season, were more abundant in the dry period (Table 2).

DISCUSSION
Variation was observed in the composition and structure of the spider assemblage in the canopies of V. divergens, with spiders groups varying throughout the seasonal periods, with significant abundance during periods of receding water and dry season, as well as the restricted occurrence of taxa in some periods.Many of these variations can be associated with habitat conditions, considering that the habitat structure is a fundamental requisite for the organization of spider assemblages (Cardoso et al. 2011).
Table 2. Abundance (number of individuals), mean ± standard deviation abundance, frequency (%) and behavioral guilds of spiders sampled in canopies of Vochysia divergens throughout the different seasonal periods in the northern region of the Pantanal of Mato Grosso, Brazil.(AH) Aerial hunters, (DAA) diurnal aerial ambushers, (DSWW) diurnal space web weavers, (GR) ground (GW) ground weavers, (NAA) nocturnal aerial ambushers, (NAR) nocturnal aerial runners, (NGH) nocturnal hunters ground, (NGR) nocturnal ground runners, (OW) orb weavers.(soil and canopy), and also as a result of the size of body and phenology of species (Cardoso et al. 2011).The use of different strategies to obtain resources reduces the competition between species, and allows their coexistence (Moran & southWood 1982, Pianka 1994, Blondel 2003, Wilson 1999).
The assemblages of in habitats with similar structures may be composed of different species, but have similar guild composition (Cardoso et al. 2011).This was verified in studies of spider assemblages in canopies in areas of monodominant vegetation in the northern region of the Pantanal of Mato Grosso (santos et al. 2003, Battirola et al. 2004, Castilho et al. 2005, Marques et al. 2007).Similar dominant groups to those found in V. divergens (e.g., Salticidae, Anyphaenidae, Araneidae, Corinnidae and Pisauridae), were obtained in the canopies of Calophyllum brasiliense Cambess (Gutiferae) (Marques et al. 2007).In the canopies of Attalea phalerata Mart.(Arecaceae), Salticidae, Araneidae, Oonopidae, Ctenidae Dictynidae when the water level was high et 2004), and Salticidae, Gnaphosidae, Araneidae and Oonopidae during the dry season (santos et al. 2003).Anyphaenidae and Pisauridae, which are typical of V. divergens canopies, occurred with low density on A. phalerata.One of the factors that may contribute to the different assemblages on these two host plants is the different architecture of their canopies (e.g., Farrel & erWin 1988), which influences the presence of important microhabitats (Battirola et al. 2007, Marques et al. 2009), e.g., sites for foraging and fixing webs, presence of prey and microclimate.
The assemblage of spiders associated with V. divergens canopies is seasonally affected by variations in habitat structure, especially by the hydrological regime and by the phenology of their host plant, and it is composed of different groups of spiders with a clear distinction between behavioral guilds.Due to the flooding of the forest, the canopies are regarded as a refuge for soil dwelling spiders during rising water and high water periods.
, nunes-da-Cunha & ECOLOGY Spider assemblage (Arachnida: Araneae) associated with canopies of Vochysia divergens (Vochysiaceae) in the northern region of the Brazilian Pantanal Junk 2011).The annual and multi-annual variations in the flood pulse affect the biota at different intensities and time scales (nunes-da-Cunha & Junk 2004

Figures
Figures1-2. (1) Abundance of spiders and (2) ordination of assemblages of spiders in canopies of Vochysia divergens throughout the different seasonal periods in the northern region of the Pantanal of Mato Grosso, Brazil, based on a Bray-Curtis dissimilarity matrix (two axes, stress = 0.09).

Figure 3 .
Figure 3. Variation in the number of spider families based on the Sorensen index in canopies of Vochysia divergens throughout the different seasonal periods in the northern region of the Pantanal of Mato Grosso, Brazil.

2 1 Table 1 .
Total abundance (number of individuals) of males, females and immatures of spiders sampled throughout the different seasonal periods in canopies of Vochysia divergens in the northern region of the Pantanal of Mato Grosso, Brazil.