植物遗传学与育种杂志

抽象的

Development of a Time-Series-Based Habitat Model for the Conservation of the Endangered Aquatic Plant Isoetes taiwanensis in Mountain Wetlands for Surface Water Management

Shang Shih

Wetland researchers and natural designers are urged to grasp hydrological main impetuses for upgrading natural protection, biological reclamation, and incorporated administration. The spatiotemporal circulation and elements of amphibian plants are basic for working on their practical specialty in mountain wetlands. This study assesses the hydrological variety of a mountain wetland to decide the unfriendly and favorable circumstances of an endemic and imperiled oceanic plant by laying out a period variation environment record model considering the immersion recurrence and length of a particular water level. The model was created and confirmed by incorporating with a field review of biotic and abiotic information to construct the comparing environment reasonableness lists through directing polynomial relapse examination. The outcomes demonstrate its ability to successfully evaluate the multifaceted connection between water level and plant inclusion in better places and seasons. The natural surroundings quality can be determined as the joined elements of absolute dispersed and most extreme persistent times of predominant and nondominant water profundities. Albeit the inclusion region changed in various seasons, the model uncovers huge abilities to connect the holes for arriving at the limit hydrological conditions which could cause the elimination of the imperiled oceanic plant Isoetes taiwanensis. The plant is viewed as more cutthroat in the area, executed by removal and solidification, with more profound water profundity and higher water preservation.To help I. taiwanensis survive in the dry season, we recommend rehabilitating these essential habitat patterns and implementing adaptive water level management during the planning and design phases. Reinforcing the water maintenance limit of the base soil to decrease water spillage and groundwater leakage speed may likewise assist with accomplishing coordinated administration for surface water preservation in the wetland.