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2.
Ants are dominant in tropical forests and many species nest in hollow cavities. The manner in which species are vertically stratified in these complex habitats is not known, with lack of nest sites being proposed to limit ant populations. Here, we assess ant community stratification and nest site limitation in a lowland rainforest in New Guinea using experimental addition of artificial bamboo nests of two cavity sizes (small: ~12 mm large: ~32 mm diameter) placed at ground level, in the understorey, and in the canopy. We also conducted a pilot experiment to test the utility of nest translocation. Nests were checked for occupancy after 10 weeks and half of the occupied nests were then translocated between forest plots, while keeping same vertical position. Occupancy of small nests was much higher in the understorey and canopy than at ground level (~75% vs. ~25%). Translocation was successful, as a majority of nests was inhabited by the same species before and after translocation and there was no impact of translocation to a different plot compared to the control, except for a reduction in colony size at ground level. Our experiment demonstrates a vertical stratification in community composition of ants nesting in hollow dead cavities and shows that these ants are more nest site limited in the higher strata than at ground level. Use of small artificial cavities has great potential for future experimental studies, especially for those focused on arboreal ants, as occupancy is high and translocation does not negatively affect their colony size. Abstract in Tok Pisin is available with online material. 相似文献
3.
Light interception by grain legume row crops 总被引:1,自引:0,他引:1
Abstract. Four contrasting grain legume species ( Glycine max, Vigna radiata. Vigna mungo and Vigna angularis ) were grown as row crops with both 0.5 m and 1.0 m spacings between row centres. Light transmission profiles, at ground level, across rows of plants, were obtained for each crop on a number of occasions during growth. The proportion of the incident downward light flux density intercepted by each crop at solar noon was found to be simply and directly related to the product of the proportion of the ground area covered by the crop's leaf canopy and the proportion of the downward light flux density incident at the row centre that was intercepted by the crop. The average proportion of the incident light energy intercepted over the whole day could be related to the proportion intercepted at solar noon. 相似文献
4.
Philip G. Oguntunde 《Plant and Soil》2005,278(1-2):371-383
Cassava (Manihot esculenta Crantz), a perennial woody shrub, is known to be highly productive under favourable conditions and produce reasonably well
under adverse conditions where other crops fail. Using constant heat sap flow sensors, sap flow density (F
d
) of cassava was monitored for 10 days in December 2002. Sap flow was highly correlated (R
2
=0.72, P<0.05) to incoming solar radiation (R
s) than to other climatic factors. Using cross-correlation analysis, no time shift was detected between F
d
and solar radiation, whereas vapour pressure deficit (VPD) lags F
d
by 110 min. Solar radiation and VPD together explained 83% of diurnal variation in sap flow. Whole-plant transpiration ranged
from 0.8 to 1.2 mm day−1 and daily canopy conductance (g
c), computed based on the inverted Penman–Monteith model, varied between 0.7 and 2.1 mm s−1 (mean = 1.4 ± 0.5 mm s−1). For the measurement period, characterized by high evaporative demand coupled with low available soil water, transpiration
accounted for 21% of the available energy and was only able to meet 24% of the atmospheric water demand. Average decoupling
factor (Ω) of 0.05±0.02 estimated suggested that a 10% change in g
c may lead to more than 9% change in transpiration which further supports the notion that stomata play significant role in
regulating cassava water use compared to other known mechanisms. Beyond light saturation (R
s
>300 W m−2) and at higher VPD (>1.0 kPa), wind effects on the canopy transpiration under water stress condition were low, while VPD
explains 94% of the observed variance in daily canopy conductance. 相似文献
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8.
South American subtropical dry forests are highly threatened by fragmentation. Despite considerable research efforts aimed at predicting ecosystem alterations due to this driver of global change, we still need to deal with general principles to improve our ability to predict the impact of fragmentation. Our work is one of the few studies that analyse the relationship between forest fragmentation and decomposition. In 12 remnants of Chaco Serrano forest in Central Argentina we tested if decomposition rates of a common leaf-litter substrate varied with fragment size and between the forest edge and interior. Decomposition declined with fragment size, with no significant effects of location (edge/interior) or interaction between the two components of fragmentation. Our results suggest that in situ conditions for decomposition may change as a consequence of forest fragmentation, specifically as a result fragment size. This may lead to impaired nutrient recycling in smaller forest remnants. 相似文献
9.
Canopy closure estimation in a temperate forest using airborne LiDAR and LANDSAT ETM+ data 下载免费PDF全文
《植物生态学报》2016,40(2):102
Aims Forest canopy closure is one of the essential factors in forest survey, and plays an important role in forest ecosystem management. It is of great significance to study how to apply LiDAR (light detection and ranging) data efficiently in remote sensing estimation of forest canopy closure. LiDAR can be used to obtain data fast and accurately and therefore be used as training and validation data to estimate forest canopy closure in large spatial scale. It can compensate for the insufficiency (e.g. labor-intensive, time-consuming) of conventional ground survey, and provide foundations to forest inventory.Methods In this study, we estimated canopy closure of a temperate forest in Genhe forest of Da Hinggan Ling area, Nei Mongol, China, using LiDAR and LANDSAT ETM+ data. Firstly, we calculated the canopy closure from ALS (Airborne Laser Scanning) high density point cloud data. Then, the estimated canopy closure from ALS data was used as training and validation data to modeling and inversion from eight vegetation indices computed from LANDSAT ETM+ data. Three approaches, multi-variable stepwise regression (MSR), random forest (RF) and Cubist, were developed and tested to estimate canopy closure from these vegetation indices, respectively.Important findings The validation results showed that the Cubist model yielded the highest accuracy compared to the other two models (determination coefficient (R2) = 0.722, root mean square error (RMSE) = 0.126, relative root mean square error (rRMSE) = 0.209, estimation accuracy (EA) = 79.883%). The combination of LiDAR data and LANDSAT ETM+ showed great potential to accurately estimate the canopy closure of the temperate forest. However, the model prediction capability needs to be further improved in order to be applied in larger spatial scale. More independent variables from other remotely sensed datasets, e.g. topographic data, texture information from high-resolution imagery, should be added into the model. These variables can help to reduce the influence of optical image, vegetation indices, terrain and shadow and so on. Moreover, the accuracy of the LiDAR-derived canopy closure needs to be further validated in future studies. 相似文献
10.
干旱条件下小麦冠层温度及其性状的关联研究 总被引:10,自引:2,他引:8
通过对小麦冠层温度和有关性状的长期观测,发现自然界存在冠层温度持续偏低的小麦,在干旱条件下,它的叶片功能期、叶绿素含量、蒸腾速率、净光合速率、可溶性蛋白含量和超氧化物歧化酶活性等重要性状明显优于冠层温度持续偏高的小麦品种,且丙二醛(MDA)积累速度慢,在籽粒灌浆期表现尤为明显。冷型小麦表现出干旱胁迫下仍然具有代谢功能较好、活力旺盛和抗早衰能力较强的特征,这进一步拓展了冷型小麦的应用范围,对于加速适应于干旱条件的优良品种选育并将其推向生产具有十分重要的意义。 相似文献