Your search keyword '"Zhou, Shiqiang"' showing total 5 results

1. Comparative activity patterns of wild giant pandas and livestock

Author

周季秋 Zhou Jiqiu, 黄金燕 Huang Jinyan, 刘巅 Liu Dian, 孙萌萌 Sun Mengmeng, Vanessa Hull, 周世强 Zhou Shiqiang, 张晋东 Zhang Jindong, and 张和民 Zhang Hemin

Subjects

Ecology, business.industry, PANDAS, medicine, Zoology, Livestock, Biology, business, medicine.disease, Ecology, Evolution, Behavior and Systematics

Published

2019

2. Divergent behavioral responses of sympatric species to grazing disturbance

Author

王晓 Wang Xiao, 张晋东 Zhang Jindong, 白文科 Bai Wenke, 黄金燕 Huang Jinyan, 周世强 Zhou Shiqiang, 欧阳志云 Ouyang Zhiyun, and 侯金 Hou Jin

Subjects

Disturbance (geology), Ecology, Sympatric speciation, Grazing, Biology, Ecology, Evolution, Behavior and Systematics

Published

2018

3. Root biomass and productivity in dominant plantation populations in the mountainous area in western Sichuan

Author

Yang Dong-sheng, Liu Xingliang, Shi Zuoming, Liu ShiRong, Zhou Shiqiang, SU Yi-ming, MA Qinyan, and Yang Yupo

Subjects

Biomass (ecology), education.field_of_study, Ecology, Population, Forestry, Abies fabri, Root system, Biology, biology.organism_classification, Horticulture, Productivity (ecology), Botany, Larix kaempferi, Soil horizon, education, Ecology, Evolution, Behavior and Systematics

Abstract

This study investigated root biomass and productivity in dominant populations in western Sichuan, China. A total of 4 plots (Picea balfouriana plantation for 22 age in Maerkang, 9 trees, mean DBH of population for 10.4 cm and height for 10.5 m; Larix maxteriana plantation for 22 age in Wolong, 9 trees, mean DBH of population for 17.0 cm and height for 13.8 m; Abies fabri plantation for 35 age in Ebian, 18 trees, mean DBH of population for 14.1 cm and height for 11.9 m; Larix kaempferi plantation for 23 age in Miyaluo, 8 trees, mean DBH of population for 17.4 cm and height for 14.5 m; a 20 m×25 m plot located on each of the 4 types in western Sichuan, China) were randomly selected and excavated to a depth of 60 cm for each of the 4 plantation types. To estimate the root biomass of an individual tree using D2H, an exponential model was selected with the highest coefficient ranging from 0.94 to 0.99. The total root biomass per hm2 varied among plantation population types following the order: L. kaempferi (37.832 t/hm2) > A. fabri (24.907 t/hm2) > L. maxteriana (18.320 t/hm2) > P. balfouriana (15.982 t/hm2). The biomass fractions of a given root size class compared to the total root biomass differed among plantation population types. For all 4 studied plantation types, the majority of the roots were distributed in the top 40 cm of soil, e.g., 97.88% for P. balfouriana population, 96.78% for L. maxteriana, 95.65% for A. fabri, and 99.72 for L. kaempferi population. The root biomass fractions distributed in the top 20 cm of soil were 77.13% for P. balfouriana, 77.13% for L. maxteriana, 65.02% for A. fabri and 80.66% for L. kaempferi, respectively. The root allocation in the 0–20, 20–40, and 40–60 cm soil layers gave ratios of 34:12:1 for P. balfouriana, 24:6:1 for L. maxteriana, 15:7:1 for A. fabri, and 64:4:1 for L. kaempferi populations. The root biomass density of dominant plantation population was 10.782 t/(hm2·m) for P. balfouriana, 8.230 t/hm2·m) for L. maxteriana, 24.546 t/(hm2·m) for A. fabri, and 13.211 t/(hm2·m) for L. kaempferi population, respectively. The root biomass productivity was found to be 0.57 t/(hm2·year) for P. balfouriana, 0.83 t/(hm2·year) for L. maxteriana, 0.71 t/(hm2·year) for A. fabri and 1.64 t/(hm2·year) for L. kaempferi population, respectively.

Published

2006

4. Canopy tree development and undergrowth bamboo dynamics in old-growth Abies–Betula forests in southwestern China: a 12-year study

Author

Alan H. Taylor, Huang Jinyan, and Zhou Shiqiang

Subjects

Forest floor, Tree canopy, geography, Bamboo, geography.geographical_feature_category, Ecology, Forestry, Understory, Management, Monitoring, Policy and Law, Biology, Old-growth forest, Basal area, Secondary forest, Nature and Landscape Conservation, Undergrowth

Abstract

Interactions between forest canopy characteristics and plants in the forest understory are important determinants of forest community structure and dynamics. In the highlands of southwestern, China the dwarf bamboo Bashania fangiana Yi is an understory dominant beneath a mixed canopy of the evergreen Abies faxoniana (Rheder & Wilson) and the deciduous Betula utilis (D. Don). The goal of this study was to better understand the role of bamboo dominance, canopy characteristics, and periodic bamboo dieback on forest development. To achieve this goal, we measured tree seedling, tree saplings, and trees, forest canopy characteristics, and bamboo cover in permanent forest (n = 4) and gap plots (n = 31) in a mixed A. faxoniana and B. utilis forest in Sichuan, China. Dwarf bamboos died off in 1983 in the gap plots, and in three of the four forest plots. Forest development was assessed for the period 1984–1996. The seedling bank in forest and gap plots increased after bamboo die-off. A. faxoniana seedlings increased more than B. utilis in forest plots; the opposite pattern characterized gap plots. The proportion of seedlings on raised micro-sites on the forest floor also changed and new seedling were more abundant on the forest floor. By 1996, bamboo seedling cover and biomass had recovered to ca. 45% or their pre-flowering values. Rates of bamboo seedling recovery were faster beneath canopy gaps and deciduous trees than beneath forest or evergreen trees. Tree mortality exceeded recruitment in plots with dense bamboo; the opposite pattern was found in the plot with little bamboo. The mortality rate for B. utilis trees (2.4% year � 1 ) was higher than that for A. faxoniana (0.8% year � 1 ) and forests with dense bamboos became more open over the census period. Tree mortality was size-dependent and intermediate sized trees had the lowest rates of mortality. Stand basal area increased mainly due to greater basal area gain than loss for A. faxoniana. Interactions between tree species life history, canopy type, and bamboo life-cycles create heterogeneous conditions that influence tree and bamboo regeneration and contribute to the coexistence of A. faxoniana and B. utilis in old-growth forests in southwestern China. # 2004 Elsevier B.V. All rights reserved.

Published

2004

5. Habitat Use and Selection by Giant Pandas.

Author

Hull, Vanessa, Zhang, Jindong, Huang, Jinyan, Zhou, Shiqiang, Viña, Andrés, Shortridge, Ashton, Li, Rengui, Liu, Dian, Xu, Weihua, Ouyang, Zhiyun, Zhang, Hemin, and Liu, Jianguo

Subjects

GIANT panda, HABITATS, WILDLIFE conservation, ENDANGERED species, GLOBAL Positioning System

Abstract

Animals make choices about where to spend their time in complex and dynamic landscapes, choices that reveal information about their biology that in turn can be used to guide their conservation. Using GPS collars, we conducted a novel individual-based analysis of habitat use and selection by the elusive and endangered giant pandas (Ailuropoda melanoleuca). We constructed spatial autoregressive resource utilization functions (RUF) to model the relationship between the pandas' utilization distributions and various habitat characteristics over a continuous space across seasons. Results reveal several new insights, including use of a broader range of habitat characteristics than previously understood for the species, particularly steep slopes and non-forest areas. We also used compositional analysis to analyze habitat selection (use with respect to availability of habitat types) at two selection levels. Pandas selected against low terrain position and against the highest clumped forest at the at-home range level, but no significant factors were identified at the within-home range level. Our results have implications for modeling and managing the habitat of this endangered species by illustrating how individual pandas relate to habitat and make choices that differ from assumptions made in broad scale models. Our study also highlights the value of using a spatial autoregressive RUF approach on animal species for which a complete picture of individual-level habitat use and selection across space is otherwise lacking. [ABSTRACT FROM AUTHOR]

Published

2016