Establishment of Fitted Models for Topographical Factors and Coexisting Plants Influencing Distribution of Natural Wild Jujube

Fitting mathematical models to describe the influence of topographic factors and coexisting plants on wild jujube distribution was performed to provide a scientific basis for wild jujube forestation. Investigation quadrats, with straight-line distances between adjacent quadrats of longer than 100 m, were set up in areas of wilderness or low human disturbance, which were rich in wild plant species. Data concerning altitude, slope aspect, slope position and slope degree of each investigation quadrat, as well as the type and number of coexisting wild plants, were collected. Based on this, correlations with the average number, occurrence probability and density of wild jujube and these variables were analyzed, and data models were established. Results of analyses show that topographic factors such as altitude, aspect, gradient, slope and position, play an important role in the distribution of wild jujube; and that Vitex negundo var. heterophylla (Franch.) Rehd. coexistence is related to wild jujube distribution. Both average number and occurrence probability of wild jujube conform to a GaussAmp model with altitude. The highest average number was recorded at 581.24 ± 13.78 m above sea level, and the highest occurrence probability at 462.53 ± 36.67 m above sea level. Average number and occurrence probability of wild jujube were fit to a linear model with slope aspect—with mathematical slope 0.49 ± 0.16—indicating that wild jujube is a light-loving and drought-tolerant plant. Average number and density of wild jujubes were fit to GaussAmp models with slope position. The highest average number and the highest density of wild jujube appears on the upper part of the middle slope. Wild jujube occurrence probability was correlated to slope degree in a quadratic equation model. With an increase in slope degree, the distribution number of wild jujube increased sharply. The survey data of slope position and slope degree further reinforced the observed drought-resistance qualities of wild jujube. Average number and density of wild jujubes were correlated to the number of Vitex negundo var. heterophylla by quadratic equation models. No other plants investigated conformed to a statistically significant relationship with wild jujube distribution. Our results suggest altitude, slope aspect, slope position and slope degree play an important role in wild jujube distribution, and that Vitex negundo var. heterophylla is an important coexistent plant species for wild jujube.

[1]  B. Xiao,et al.  [Bryophyte diversity and microhabitat characteristics of bryophyte-dominated biological soil crusts development in water-wind erosion crisscross region of the northern Loess Plateau, China]. , 2022, Ying yong sheng tai xue bao = The journal of applied ecology.

[2]  Hui Yan,et al.  Wild Jujube (Ziziphus jujuba var. spinosa): A Review of Its Phytonutrients, Health Benefits, Metabolism, and Applications. , 2022, Journal of agricultural and food chemistry.

[3]  Yanqing Zhang,et al.  Zizyphi Spinosae Semen: a natural herb resource for treating neurological disorders. , 2022, Current topics in medicinal chemistry.

[4]  Chi-Tang Ho,et al.  Ziziphi Spinosae Semen: An updated review on pharmacological activity, quality control, and application. , 2022, Journal of food biochemistry.

[5]  Jiejie Sun,et al.  Analysis of the distribution pattern of Chinese Ziziphus jujuba under climate change based on optimized biomod2 and MaxEnt models , 2021, Ecological Indicators.

[6]  Ren-qing Wang,et al.  A primary study of breeding system of Ziziphus jujuba var. spinosa , 2021, Scientific Reports.

[7]  Johanne M. Pelletier,et al.  Distribution of tree species with high economic and livelihood value for Zambia , 2019, Forest Ecology and Management.

[8]  Dong Hyun Kim,et al.  The ethanol extract of Zizyphus jujuba var. spinosa seeds ameliorates the memory deficits in Alzheimer's disease model mice. , 2019, Journal of ethnopharmacology.

[9]  Min Liu,et al.  Integrating the effects of latitude and altitude on the spatial differentiation of plant community diversity in a mountainous ecosystem in China , 2017, PloS one.

[10]  Hong S. He,et al.  Changes in forest biomass and tree species distribution under climate change in the northeastern United States , 2017, Landscape Ecology.

[11]  Frans Bongers,et al.  Rainfall and temperature affect tree species distribution in Ghana , 2014, Journal of Tropical Ecology.

[12]  S. Qin Species Diversity of Different Plant Communities at Estuary of Guanmenlazi Reservoir,Liao River Basin , 2014 .

[13]  Zhang Xibia The Regeneration Characteristics and Affecting Factors of Pinus tabulaeformis Artificial Forests of Ziwu Mountains,China , 2014 .

[14]  Wang Yin-quan Advances in Influences of Altitudinal Gradient on the Distribution and Quality Formation of Medicinal Plants , 2012 .

[15]  Pan Zhan-bing Effects of Slope Aspect and Position on Temporal and Spatial Variation of Soil Water Content on Alfalfa Land in Loess Hilly Region of South Ningxia Hui Autonomous Region , 2010 .

[16]  Tian Guang-hui Study on Essential Oil Obtained from Seeds of Wild Vitex negundo , 2010 .

[17]  Jiao Xing,et al.  Growth and its influencing factors of Pinus tabulaeformis in the Loess Plateau of Shaanxi Province. , 2009 .

[18]  Zhang Yujie Effects of Cr(VI)on the growth of marine algae , 2009 .

[19]  C. Körner The use of 'altitude' in ecological research. , 2007, Trends in ecology & evolution.

[20]  R. Dunn,et al.  What drives elevational patterns of diversity? A test of geometric constraints, climate and species pool effects for pteridophytes on an elevational gradient in Costa Rica , 2006 .

[21]  Kang Muyi,et al.  Environmental gradient analysis and species group division of tree species distribution in eastern Zhongtiao Mountain , 2006 .

[22]  Ole R. Vetaas,et al.  Pteridophyte richness, climate and topography in the Iberian Peninsula: comparing spatial and nonspatial models of richness patterns , 2005 .

[23]  Guangsheng Zhou,et al.  Distribution, species diversity and life-form spectra of plant communities along an altitudinal gradient in the northern slopes of Qilianshan Mountains, Gansu, China , 2003, Plant Ecology.

[24]  M. Kessler Elevational gradients in species richness and endemism of selected plant groups in the central Bolivian Andes , 2000, Plant Ecology.

[25]  Liang Zhao,et al.  Evolutionary mechanisms of species coexistence in ecological communities , 2001, Biodiversity Science.

[26]  K. Gaston Global patterns in biodiversity , 2000, Nature.