Ambiguity exists concerning the effects of climate on soil nematode-community composition. In this study, we examined the free-living nematode communities in soil along a climatic gradient representing humid-Mediterra...Ambiguity exists concerning the effects of climate on soil nematode-community composition. In this study, we examined the free-living nematode communities in soil along a climatic gradient representing humid-Mediterranean, Mediterranean, semi-arid, and arid climate types. The relationships between abiotic soil characteristics (organic carbon, soil moisture (SM), water-holding capacity) and nematode parameters, such as abundance, trophic group composition, and diversity indices, were explored in the context of climate and seasonality. Nematode abundance was lowest at the arid site. At the humid Mediterranean and Mediterranean locations, nematode abundance reached its peak in winter, while at the semi-arid and arid sites, an almost opposite trend was observed, with lowest abundances in winter, presumably due to a nutrient washout from the soil profile during the rainy season. On the trophic level, one trophic group demonstrated a positive correlation with SM and one trophic group demonstrated a negative one at each location, while the other two groups remained constant. Fungi-feeding nematodes were found to be unaffected by SM at the humid-Mediterranean and Mediterranean locations, while at the semi-arid and arid sites their proportion increased in correlation with decreasing SM. Bacteria-feeders increased with SM at the arid site, were unaffected at the semi-arid location, and decreased with SM at the humid-Mediterranean and Mediterranean sites. Plant-parasites were associated with SM only at the humid-Mediterranean site. Omnivores-predators were positively affected by SM at the two middle locations, staying constant at the humid-Mediterranean and arid sites. These findings point to the strong linkage existing between nematode trophic behavior and climatic factors, demonstrating distinctive communal fingerprints for each climate type.展开更多
Prescribed fire produced a landscape with two types of severely burned patches: charred shrub patches and charred patches with tree trunks at the center. Soil nematodes were more abundant in burned and unburned junipe...Prescribed fire produced a landscape with two types of severely burned patches: charred shrub patches and charred patches with tree trunks at the center. Soil nematodes were more abundant in burned and unburned juniper (Juniperus monosperma) tree patches than in yucca-shrub patches. There were no differences in nematode abundance between burned and unburned patches during the late spring and summer samples. Nematode abundance was significantly (p < 0.05) higher in unburned patches than in burned patches in the early spring samples, reflecting large differences in soil moisture between unburned and burned patches. There were no differences in soil nematode abundance between burned and unburned patches at oneyear post-burn and three-year post-burn sites. When all samples were pooled, taxonomic diversity, ecological indices, and abundance of trophic groups (bacteria-feeders, fungi-feeders, and omnivore-predators) were higher in unburned than burned patches. These results suggest that the long-term (up to three years post-burn) effects of fire on soil nematodes are indirect, i.e., by loss of tree canopies, litter accumulation, and shrub foliage, which affects soil temperatures and water redistribution.展开更多
Livestock grazing and trampling is an important factor in the formation and development of different terrestrial ecosystems.However,despite numerous studies on soil compaction,there is still no consensus as to which k...Livestock grazing and trampling is an important factor in the formation and development of different terrestrial ecosystems.However,despite numerous studies on soil compaction,there is still no consensus as to which kind of effect(positive or negative)animal trampling exerts on soil nematodes.The main goal of this study was to evaluate the animal trampling effect on free-living nematode abundance and diversity,and to define the attenuating effect of the tree canopies(Cupressus sempervirens,Eucalyptus camaldulensis,and Tamarix aphylla)during wet and dry periods.The nematodes were extracted from 100 g aliquots of soil samples(brown-red sandy soils)during cold-wet(CW),warm-wet(WW),and hot-dry(HD)periods during 2013-2014,in a man-made safari-zoo habitat,using the Baermann funnel procedure.Our results revealed the impact of trampling on both free-living nematode abundance and diversity,and their soil habitat.It was found that trampling,along with seasonal fluctuation and the tree-species attenuating effect on the soil medium,resulted in the creation of the spatial-temporal heterogeneity of soil properties in the study area.In turn,variation in soil properties was reflected in soil nematode abundance and diversity,revealing tight correlation with the observed soil properties.Animal trampling had an overwhelming,mostly negative impact on soil nematode abundance,genera,and trophic diversity in the open,bare area.However,the protective effect of the tree canopies,as well as seasonal fluctuations,attenuated this negative impact.The trees had a significant attenuating effect on trampling compared with the open,bare area.However,different tree species during the wet and dry periods had a variable impact on nematode abundance,genera,and trophic diversity.During the hottest period of the year,when external adverse factors dominated the trampling effect,the ability of the trees to protect nematode communities was significantly reduced.Of all the colonizer-persister(cp)continuum of nematode functional guilds,only bacteria-feeding nematodes belonging to the cp-1 guild were positively affected by trampling.In general,nematodes belonging to the r-life-strategy group(colonizers tolerant to environmental disturbance),mainly bacteria-feeding nematodes,were the most numerous(61 and 44%at the trampling and undisturbed sites,respectively).In contrast to the bacteria-feeding group,fungi-feeding nematodes were the smallest group in the study area(8 and 4%in the trampling and undisturbed sites,respectively).The undisturbed sites were a more favorable habitat for the plant-parasite nematodes(9 and 26%in the trampling and undisturbed sites,respectively).Surprisingly,the omnivore-predator nematodes belonging to the K-life strategy group and that are characterized by hypersensitivity to disturbance,were relatively numerous at the trampling(22%)and relatively undisturbed(26%)sites.The results showed that 62%of the nematode species were affected(48%negatively and 14%positively)by either direct trampling or changes in soil properties.The ecological indices confirmed that animal trampling had a negative impact on the soil biota in the study area.Our results suggested that animal trampling exerts significant a direct and indirect effects(through changes in soil properties)on soil free-living nematodes.Moreover,the wet-dry seasonal periods along with the tree canopies protective effect may significantly change the extent of animal trampling impact.展开更多
文摘Ambiguity exists concerning the effects of climate on soil nematode-community composition. In this study, we examined the free-living nematode communities in soil along a climatic gradient representing humid-Mediterranean, Mediterranean, semi-arid, and arid climate types. The relationships between abiotic soil characteristics (organic carbon, soil moisture (SM), water-holding capacity) and nematode parameters, such as abundance, trophic group composition, and diversity indices, were explored in the context of climate and seasonality. Nematode abundance was lowest at the arid site. At the humid Mediterranean and Mediterranean locations, nematode abundance reached its peak in winter, while at the semi-arid and arid sites, an almost opposite trend was observed, with lowest abundances in winter, presumably due to a nutrient washout from the soil profile during the rainy season. On the trophic level, one trophic group demonstrated a positive correlation with SM and one trophic group demonstrated a negative one at each location, while the other two groups remained constant. Fungi-feeding nematodes were found to be unaffected by SM at the humid-Mediterranean and Mediterranean locations, while at the semi-arid and arid sites their proportion increased in correlation with decreasing SM. Bacteria-feeders increased with SM at the arid site, were unaffected at the semi-arid location, and decreased with SM at the humid-Mediterranean and Mediterranean sites. Plant-parasites were associated with SM only at the humid-Mediterranean site. Omnivores-predators were positively affected by SM at the two middle locations, staying constant at the humid-Mediterranean and arid sites. These findings point to the strong linkage existing between nematode trophic behavior and climatic factors, demonstrating distinctive communal fingerprints for each climate type.
文摘Prescribed fire produced a landscape with two types of severely burned patches: charred shrub patches and charred patches with tree trunks at the center. Soil nematodes were more abundant in burned and unburned juniper (Juniperus monosperma) tree patches than in yucca-shrub patches. There were no differences in nematode abundance between burned and unburned patches during the late spring and summer samples. Nematode abundance was significantly (p < 0.05) higher in unburned patches than in burned patches in the early spring samples, reflecting large differences in soil moisture between unburned and burned patches. There were no differences in soil nematode abundance between burned and unburned patches at oneyear post-burn and three-year post-burn sites. When all samples were pooled, taxonomic diversity, ecological indices, and abundance of trophic groups (bacteria-feeders, fungi-feeders, and omnivore-predators) were higher in unburned than burned patches. These results suggest that the long-term (up to three years post-burn) effects of fire on soil nematodes are indirect, i.e., by loss of tree canopies, litter accumulation, and shrub foliage, which affects soil temperatures and water redistribution.
文摘Livestock grazing and trampling is an important factor in the formation and development of different terrestrial ecosystems.However,despite numerous studies on soil compaction,there is still no consensus as to which kind of effect(positive or negative)animal trampling exerts on soil nematodes.The main goal of this study was to evaluate the animal trampling effect on free-living nematode abundance and diversity,and to define the attenuating effect of the tree canopies(Cupressus sempervirens,Eucalyptus camaldulensis,and Tamarix aphylla)during wet and dry periods.The nematodes were extracted from 100 g aliquots of soil samples(brown-red sandy soils)during cold-wet(CW),warm-wet(WW),and hot-dry(HD)periods during 2013-2014,in a man-made safari-zoo habitat,using the Baermann funnel procedure.Our results revealed the impact of trampling on both free-living nematode abundance and diversity,and their soil habitat.It was found that trampling,along with seasonal fluctuation and the tree-species attenuating effect on the soil medium,resulted in the creation of the spatial-temporal heterogeneity of soil properties in the study area.In turn,variation in soil properties was reflected in soil nematode abundance and diversity,revealing tight correlation with the observed soil properties.Animal trampling had an overwhelming,mostly negative impact on soil nematode abundance,genera,and trophic diversity in the open,bare area.However,the protective effect of the tree canopies,as well as seasonal fluctuations,attenuated this negative impact.The trees had a significant attenuating effect on trampling compared with the open,bare area.However,different tree species during the wet and dry periods had a variable impact on nematode abundance,genera,and trophic diversity.During the hottest period of the year,when external adverse factors dominated the trampling effect,the ability of the trees to protect nematode communities was significantly reduced.Of all the colonizer-persister(cp)continuum of nematode functional guilds,only bacteria-feeding nematodes belonging to the cp-1 guild were positively affected by trampling.In general,nematodes belonging to the r-life-strategy group(colonizers tolerant to environmental disturbance),mainly bacteria-feeding nematodes,were the most numerous(61 and 44%at the trampling and undisturbed sites,respectively).In contrast to the bacteria-feeding group,fungi-feeding nematodes were the smallest group in the study area(8 and 4%in the trampling and undisturbed sites,respectively).The undisturbed sites were a more favorable habitat for the plant-parasite nematodes(9 and 26%in the trampling and undisturbed sites,respectively).Surprisingly,the omnivore-predator nematodes belonging to the K-life strategy group and that are characterized by hypersensitivity to disturbance,were relatively numerous at the trampling(22%)and relatively undisturbed(26%)sites.The results showed that 62%of the nematode species were affected(48%negatively and 14%positively)by either direct trampling or changes in soil properties.The ecological indices confirmed that animal trampling had a negative impact on the soil biota in the study area.Our results suggested that animal trampling exerts significant a direct and indirect effects(through changes in soil properties)on soil free-living nematodes.Moreover,the wet-dry seasonal periods along with the tree canopies protective effect may significantly change the extent of animal trampling impact.
