1)What are the characteristics of vascular plants with seeds??

2) Why do vascular plants grow larger than non vascular plants??

2) Vascular plants are able to get their nutrients delivered through the body through veins, allowiing them to grow taller. Non vascular plants have no internal "circulatory system" or any means of moving liquid nutrients around their body. Sorry I hit the wrong button before and it was posted.

2) Vascular plants are able to get their nutrients delivered through the body through veins, allowiing them to grow taller. Non vascular plants have no internal "circulatory system" or any means of

Thanks!! :D

oh my god 2009

these people are out of school and has jobs now lmao

To answer these questions, let's break down the key terms and concepts involved.

1) Characteristics of vascular plants with seeds:
Vascular plants with seeds are known as gymnosperms and angiosperms. They possess certain characteristics that distinguish them from non-vascular plants. Here are some key characteristics:

a) Vascular Tissue: Vascular plants have specialized tissues called xylem and phloem, which are responsible for transporting water, nutrients, and sugars throughout the plant. This vascular tissue allows for efficient long-distance transport.

b) Seeds: Vascular plants produce seeds, which are structures containing embryos. Seeds provide protection and nutrients to the developing plant embryo, allowing it to survive in various conditions and disperse to new locations.

c) Sexual Reproduction: Vascular plants reproduce sexually through the production of pollen and the transfer of male gametes (sperm) to the female parts of the plant to fertilize the egg.

d) Dominance of Sporophyte Generation: Vascular plants have a dominant stage in their life cycle called the sporophyte generation. This generation produces spores that give rise to the gametophyte generation, which is much smaller and less conspicuous.

2) Why vascular plants grow larger than non-vascular plants:
The ability of vascular plants to grow larger than non-vascular plants is attributed to several factors:

a) Presence of Vascular Tissue: Vascular tissue allows for the efficient transport of water and nutrients throughout the plant, enabling it to support the growth of larger cells, tissues, and organs. This promotes better overall growth and productivity.

b) Enhanced Structural Support: Vascular tissues, especially xylem, provide structural support to the plant, enabling it to grow upright and expand in size without collapsing under its weight. This support allows vascular plants to develop strong, erect stems and expand their above-ground structures.

c) More Efficient Resource Acquisition: The specialized tissues and structures found in vascular plants, such as roots and leaves, enable them to efficiently acquire the necessary resources for growth, including water, minerals, and sunlight. This enhanced resource acquisition allows for more rapid and sustained growth.

d) Adaptability to Various Habitats: Vascular plants have evolved a wide range of adaptations to survive in diverse habitats, including deserts, forests, and wetlands. These adaptations, such as root systems and specialized leaf structures, enable vascular plants to occupy various niches and access resources that non-vascular plants may struggle to obtain. This flexibility contributes to their larger size.

By understanding these characteristics and comparing vascular and non-vascular plants, we can see the reasons why vascular plants with seeds have the ability to grow larger and display more diverse forms.