Fluctuation of the ecological niche of Moringa peregrina (Forssk.) Fiori with topoclimatic heterogeneity in southern Iran

IF 1.5 4区农林科学 Q2 FORESTRY

Iforest - Biogeosciences and Forestry Pub Date : 2023-02-28 DOI:10.3832/ifor4196-015

H. P. Sahragard, P. Karami, M. Ajorlo, M. Marchi

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引用次数: 1

Abstract

Heterogeneity can be studied for any dynamic or fixed environmental factors over time. However, determining the extent of heterogeneity occurrence in terms of habitat suitability, variability of dynamic and fixed factors, as well as landform role is an issue that has received less attention. This study aimed to investigate the distribution of Moringa peregrina at two climate change scenarios, to identify the Region of High Heterogenetic (ROHH) of the habitats in those scenarios and to ascertain the heterogeneity of habitat variables of the species in southern Iran. The current and potential distributions of the species in mild and severe climate change scenarios of 2050 and 2070, respectively, were modeled through the Ensemble technique using the climatic and topographic (topoclimatic) variables. The current distribution with four predictions of mild to severe Representative Concentration Pathways (RCP2.5, RCP4.5, RCP6.0 and RCP8.5) were entered into the principal component analysis (PCA) each year to achieve the heterogeneity of distribution. Then, the ROHH was calculated for areas with fluctuations of more than 50%. The topoclimatic variables in the ROHH were compared with the value of each variable in the current distribution in different landforms. The climatic variables of temperature seasonality and mean diurnal range had the greatest impact on M. peregrina distribution. There was more than 90% spatial agreement between the species current and potential distributions under different climate change scenarios (minimum Kappa = 0.9). In climate change scenarios, increase in species distribution is mainly limited by reduced rainfall, high temperature and altitude. The heterogeneity of habitat variables varied greatly in the ROHH and current presence points, indicating the species attempt to occupy new ecological niches. The highest distribution of the species was in the canyons and mountain tops, and the species seeks to occupy these areas in the ROHH. The magnitude of fluctuations of habitat variables at the presence points and the ROHH was different, indicating the species crossing the current niche range to establish in new niche. The mean diurnal range (Bio2) and annual precipitation (Bio12) variables had the lowest heterogeneity in 2050 and 2070 scenarios. This study reports that the fluctuation of habitat variables in areas with high heterogeneity was different from the current distribution range of M. pereg-rina . No significant fluctuation was found in the distribution range of the species in climate change scenarios

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辣木(Moringa peregrina)生态位的波动伊朗南部具有地形气候异质性的菲奥里

异质性可以研究任何动态或固定环境因素随时间的变化。然而，从生境适宜性、动态因子和固定因子的变异性以及地形的作用等方面确定异质性的发生程度是一个较少受到关注的问题。研究了伊朗南部地区辣木(Moringa peregrina)在两种气候变化情景下的分布，确定了两种气候变化情景下的栖息地高异质性区(ROHH)，并确定了该物种栖息地变量的异质性。利用气候和地形(topocatic)变量，利用Ensemble技术分别模拟了2050年和2070年温和和严重气候变化情景下物种的现状和潜在分布。每年将4个轻度至重度代表性浓度路径(RCP2.5、RCP4.5、RCP6.0和RCP8.5)预测的当前分布纳入主成分分析(PCA)，实现分布的异质性。然后，计算波动大于50%的区域的ROHH。将ROHH中的地形气候变量与各变量在不同地形下的当前分布值进行了比较。温度、季节和平均日差等气候变量对梭子蟹的分布影响最大。不同气候变化情景下的物种现状与潜在分布在空间上的一致性在90%以上(最小Kappa = 0.9)。在气候变化情景下，物种分布的增加主要受降雨减少、高温和高海拔的限制。生境变量在ROHH和当前存在点的异质性差异较大，表明物种试图占据新的生态位。该物种的最高分布在峡谷和山顶，该物种在ROHH中寻求占据这些区域。生境变量在存在点和ROHH上的波动幅度不同，表明物种正在跨越当前生态位范围建立新的生态位。平均日差(Bio2)和年降水量(Bio12)变量在2050年和2070年的异质性最低。本研究报告了高异质性地区生境变量的波动与白桦的当前分布范围不同。在气候变化情景下，该物种的分布范围没有明显的波动

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来源期刊

Iforest - Biogeosciences and Forestry FORESTRY-

CiteScore

3.30

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： The journal encompasses a broad range of research aspects concerning forest science: forest ecology, biodiversity/genetics and ecophysiology, silviculture, forest inventory and planning, forest protection and monitoring, forest harvesting, landscape ecology, forest history, wood technology.