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Adaptive features of hydrophytes

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3 adaptive features of hydrophytes This is a question and answer forum for students, teachers and general visitors for exchanging articles, answers and notes. Answer Now and help others. Answer Now Here's how it works: Anybody can ask a question Anybody can answer The best answers are voted up and rise to the top Ø Any feature of an. State 3 adaptive features of hydrophytes Adaptations in hydrophyte are of three kinds, ecological, physiological and anatomical. To survive in the aquatic habitat, hydrophytes modify their structures like leaves, stem, roots and the physiology of the cells to adapt themselves according to the different aquatic habitats like freshwater, marine water

5 adaptive features of hydrophytes Observe metamorphosis in some insects Classification II General Principles of Classification Classification is the science that puts organisms into distinct groups to make their study easy and systematic. Modern scientific classification is based on structure and functions Physiological adaptive features based on morphological and anatomical features: Absorb water and dissolved nutrients throughout the body remaining in contact with water. Water potential is very high as the concentration of their cell sap is very much close to surrounding water The adaptations in hydrophyte depend upon the conditions like temperature, osmotic concentration, toxicity, flow, dissolved oxygen, nutrients of water. All these factors may influence plant growth and reproduction in the hydrophytes

Physiological adaptive features of hydrophytes based on morphological and anatomical features By admin Posted on May 23, 2021. Absorb water and dissolved nutrients throughout the entire body owing to loosely arranged and exposed epidermis. The aquatic plants exhibit a low osmotic concentration. Osmotic concentration of cell sap is equal or. Adaptations in hydrophyte are of three kinds, ecological, physiological and anatomical. For the survival in an aquatic habitat, hydrophytes modify its structures like leaves, stem, roots and the physiology of the cells to adapt themselves according to the different aquatic habitats like freshwater, marine water, lakes, ponds etc Most leaves in hydrophytes are thin, and many can float freely. The part of plants that allow for gas exchange, called the stomata, are located only on the part of the plant surface that's exposed.. Hydrophytes. Plants adapted to live in extremely wet conditions; Common adaptations include: Large air spaces in their leaves to keep them close to the surface of the water where there is more light for photosynthesis; Small roots as they can also extract nutrients from the surrounding water through their tissues; Stomata usually open all the time and mainly found on the upper epidermis of the. Adaptations of Hydrophytes The hydrophyte plants undergo certain modifications to adapt themselves according to the surrounding or thrive in the aquatic environment. Cuticle: The majority of the floating hydrophytes possess a thin and waxy cuticle, which facilitates effective gaseous exchange and prevents excessive transpiration

Three Adaptive features of aquatic plants (hydrophytes) are as follows: a) Underdeveloped conducting tissues (xylem and phloem) are present. b) The plants body covered with waxy substance. c) The stems are long, soft and spongy Hydrophytes: Classification and Adaptations (Morphological, Anatomical and Physiological Adaptations of Aquatic Plants) What is an adaptation? Ø Any feature of an organism which enables it to exist under conditions of its habitat is called adaptation. Ø Adaptations are for withstanding adverse conditions of environment and to utilize the maximum benefit of the environment (nutrition or. Reduction of Absorbing Tissue: The root-system in hydrophytes is feebly evolved and root hairs and root cap are absent. In some floating plants such as Utricularia, Ceratophyllum, etc., no roots are evolved, and in submerged plants such as Vallisneria, Hydrilla, etc., water dissolved mineral salts and gases are absorbed by their whole surface Hydrophytes Adaptations The plants which grow in water partially or completely are known as aquatic plants or Hydrophytes. Water may be fresh or saline

Anatomical adaptations of Hydrophytes The anatomical adaptations in hydrophytes are mainly (i) The reduction of protective tissue (epidermis here is meant for absorption and not for protection). (ii) The reduction of supporting or mechanical tissue (i.e., absence of sclerenchyma) Morphological and Physiological Adaptations of Hydrophytes. In hydrophytes roots of the plants are not much important as the plants are partially or completely adaptationw in water. The wax prevents water from clogging and hydrolhytes protects the leaf from physical and chemical injuries. Anatomical adaptations Adaptations in internal features Xerophytic features. (i) Presence of thick cuticle on the aerial parts of the plant body. The epidermis is characterized by a cover of waxy layers in addition to thick cuticle. (ii) They develop protected stomata which are not deeply sunken. The palisade consists of several layers with intercalated tannin and oil cells

Adoptive feature of Hydrophytes (Water hyacinth

  1. Anatomical Features of Hydrophytes: 1. Cuticle is completely absent in submerged parts of the plants. 2
  2. eral salts and dissolved gases directly through epidermis
  3. Adaptations of hydrophytes · Roots are poorly developed as in Hydrilla or absent as in Wolffia. · Plant body is greatly reduced as in Lemna. · Submerged leaves are narrow or finely divided. e.g. Hydrilla
  4. Morphological adaptations. 1. Root system is poorly developed. 2. Roots of floating hydrophytes show very poor development of root hairs, absence of true root caps, with root pockets to protect their tips from injuries. (e.g. Eichhornia) 3. Rooted hydrophytes like Hydrilla, Vallisnera, Elodia derive their nourishment through their body surfaces
  5. Hydrophytes (Adaptations in plants to aquatic environment) The plants which are growing in water partially or completely are known as aquatic plants or hydrophytes. Water may be freshwater or saline. Plants which grow in fresh water bodies like ponds, lakes, pools, streams, rivers etc.are known as freshwater plants, and those growing in salt.
  6. NEET Biology Ecology : Hydrophytes AdaptationThese NEET Bio videos are helpful in coaching students of class 11 & 12 for NEET / AIPMT /AIIMS / other medical.

Unit 4 Adaptations of Hydrophytes and Xerophytes 113 Penfound (1952) categorized hydrophytes into three aquatic forms — emergent, floating and submerged. The British ecologists, Tansley (1949), Spence (1964) and Sculthorpe (1967) classified vascular hydrophytes based on this recognition. Free-floating plants Plants float on the surface of water In the course of evolution, many species have become adapted in both structural and physiological features to habitats with an excessive water supply. Plants that live wholly or partly submerged in water or in very wet places are known as hydrophytes (Gr. hudor, water; phyton, plant) Adaptive features of submerged hydrophytes: Morphological features: Root system: absent, e.g., Ceratophyllum or, if present, functionless, only to act as anchorage with the soil. E.g., Hydrilla. Root hairs are absent, and the root cap is also absent. Stem: they have no well-developed stem. The stem is unbranched, long, slender, spongy, and.

Hydrophytes show the following adaptations in the anatomical features:. The presence of little or no mechanical strengthening tissue in stems and leaf petioles. In hyper-arid deserts, there is no rain, wind speed is very high, and night is hyxrophytes cold. Xerophytes and Hydrophytes - ppt video online download. Nymphaea, Nelumbium, Victoria. Presence of air cavity is the single most important anatomical adaptive feature of hydrophytes. Stomata are totally absent in submerged parts of plants. In some exceptional cases, vestigial or functionless stomata have been noticed. Exchange of gases takes place hold directly through cell walls

Adaptations in Hydrophytes - Meaning and Types - Biology

Introducing Hydrophytes, 3D printed 'plants' that respond to their surroundings in incredibly lifelike ways. These objects are part of unique research into m.. Hydrophytes. Plant adapted to live in extremely wet conditions. Common adaptations to increase the rate of gaseous exchange: Leaf Shape: The submerged leaves are often highly dissected or divided to create a very large surface area for absorption and photosynthesis. It also minimises water resistance and hence potential damage to the leaves Hydrophytic Adaptations As the aquatic environment is uniform throughout, the hydrophytes develop very few adaptive features. Important features of these plants are described in the following heads: A. Morphological (i) Roots: Root systems in hydrophytes are poorly developed which may or may not be branched in submerged hydrophytes

Variation : GATE AcademyAdaptations of plants- Xerophytes and hydrophytes

Physiological adaptive features of hydrophytes based on

Hydrophytes show the following adaptations in the anatomical features:. Plants which grow in water systems like in ponds, lakes, streams, rivers, pools, etc are known as fresh water plants. Reduction in the vascular tissues. In plants like Utricularia, Slavinia roots are absent. This is a topic of botany Hydrophytic Leaves. Hydrophytes (literally water plants) are adapted to living in aquatic conditions.. Figure \(\PageIndex{2}\): A cross section through a dichotyledonous hydrophyte, Nymphaea (a water lily). The organization of tissues in this leaf is described in depth in Fig. 13.3.1.4

Three Adaptive features of aquatic plants (hydrophytes) are as follows: a) Underdeveloped conducting tissues (xylem and phloem) are present. b) The plants body covered with waxy substance. c) The stems are long, soft and spongy. The stem and leaves of hydrophytes are covered with waxy substances to present them from rotting and decaying Explain the adaptive features of hydrophytes and xerophytes to their environments 18.3 SELECTION Core Describe natural selection with reference to: - variation within populations - production of many offspring - competition for resources. General adaptations of a hydrophyte to maintain water balance. Hydrophytes generally have a reduced presence of roots, or they can be entirely absent from the plant in general. The main function of hydrophytic roots is for anchorage in the water, not for absorption of water as leaves can absorb water through osmosis Adaptation in plants. The structural features of living organisms that develop over a period of time to enable them to survive and reproduce in a particular environment is called adaptation. In other words, it is the ability of an organism to adjust in a particular environment or surrounding. An organism well- adapted to a particular.

Plant adaptations (bd mod)

What are the 3 adaptative features of hydrophytes? - Quor

Water Lilies (Hydrophytes) • These plants actually live in water and require adaptations to cope with growing in water or in permanently saturated soil. It is important that the leaves float in surface water plants and water-logging is a major problem for hydrophytes. The air spaces need to be full of air not water for the plant to live. 7 Adaptive features. Adaptive features are inherited functional features of an organism that increases in fitness. Fitness is defined as the probability of an organism surviving and reproducing in the environment in which it is found. Adaptive features of xerophytes . Xerophytes are plants that survive with very little water i.e. cactus Xerophyte adaptations increase water intake, limit water loss, and store water efficiently. Water intake adaptations include deep or widespread roots, and high salt content to increase osmosis. Xerophytes have thick cuticles, lost or finely divided leaves, reduced stomata, and CAM photosynthesis Morphology of Hydrophytes. Hydrophytes have some special adaptations. Following are some of the external features. Roots: In hydrophytes roots do not play an important role in water absorption. Roots are either completely absent (e.g., Ceratophyllum) or poorly developed (e.g., Hydrilla)

Leaf adaptations of hydrophytes are to increase the rate of both osmosis and transpiration. Submerged Hydrophytes Submerged plants like elodea have highly dissected or thread-like leaves that are flexible which gives the plant a large SA:V ratio making osmosis more efficient and to decreases resistance to the moving water/ current Answered 2012-04-19 16:46:09. Xerophytes are plants which are adapted to a dry, arid habitat such as deserts or sand dunes. They have adapted to reduce water loss so as to survive these harsh. ADVERTISEMENTS: Adaptations in hydrophytes can be discussed under three headings: mor- phological, anatomical and physiological. Related posts: Adaptations in xerophytes are of two types Notes on the phenomenon of Adaptation in Aquatic Habitat Short essay on Physiological Roles of Abscises Acid Following adaptations are seen in secondary aquatic adaptations Complete information on the.

Plant Adaptations: Hydrophytes, Mesophytes & Xerophytes

Adaptations - Revision Worksheet 1. Use your knowledge of xerophytic and hydrophytic plants to answer the following questions: 1.1 What is the difference between xerophytes and hydrophytes with regard to the places where they are found? 1.2 Give two examples of hydrophytes These hydrophytes grow in hydric conditions and show the following general adaptive features: They possess poor mechanical, absorbing, conductive and protective tissues. They also contain an extensive development of air spaces (aerenchyma) in the tissues. Roots are either absent (e.g., Wolffia) or poorly developed (e.g., Hydrilla) Anatomical Adaptations of Hydrophytes. Higher thermal tolerance of bacteria, algae and some other organisms of hot springs may be attributed to their physiological adaptations. Grow your Grades Replies: The older leaves lose their capacity to support pressure gradients so gas from the roots returns out through the old leaves Identification of the most prominent adaptive features of xerophytes and hydrophytes; the internal and external, that results with the categorization of different types of plants

18.2 Adaptive features .pptx. • Define adaptive feature as an inherited feature that helps an organism to survive and reproduce in its environment. • Interpret images or other information about a species to describe its adaptive features hang on tight @maddymadepottery Shrinking. Particular cacti have specific features on their stems. For instance, the ribs and flutes on a species, like the rounded ball cactus stem, enable it to easily shrink during the prolonged desert droughts and expand when it rains.. Shrinking is an adaptation that ensures there is just a small surface area hence reducing water loss Hydrophytes are water-dependent plants floating or submerged in water. The nutrients required by hydrophytes are provided within the water and delivered to the roots. These are common plants found in aquatic regions. They are also a predominant feature of indoor and outdoor water gardens and ponds Hydrophytes show different adaptations to survive in water. Figure 01: Hydrophytes These adaptations include thin cuticle or no cuticle, presence of high number of stomata , stomata kept open all the time, simple plant structure, flat and broad leaves, leaves possessing air sacs, less roots density or no root system, roots are able to pick. Xerophytes and hydrophytes 1. Adaptations of Plants Xerophytes and Hydrophytes 2. Adaptations of Plants Plants can survive in many extreme environments. Xerophytes - Desert Plants Hydrophytes - Water Plants (live in ponds, rivers and swamps) In order to survive in these environments, these plants need to have adaptations

Adaptive Features CIE IGCSE Biology Revision Note

Hydrophytes (water + plant) are plants which are able to live either in water itself or in very moist soils. Hydrophyte survival characteristics: 1. Thin cuticle. 2. Stomata open most of time (as water is abundant). 3. Increased # of stomata. 4. Plants in water have less structure (water pressure supports them). 5 Q. Some plants have special cells, called hinge cells, on one surface of their leaves that also has stomata. When hinge cells lose water, the leaf rolls up with the hinge cells on the inside of the rolled leaf

(English) Fast Note - Use SAWW & NASS to memorize the Adaptive Features of Hydrophytes (Updated) Original date posted: 3/20/14 UPDATE 2021 : Just know SAWW & NASS & their brief explanation & you're good to go Hydrophytes have adaptations to survive in extremely moist conditions. Some live at the waters edge, on the surface, or in the water itself. Water lilies have evolved large compartments called aerenchyma, allowing them to retain more oxygen in their roots than mesophytes. Mangrove trees live at the water's edge and have adventitious, or above. Ecological Adaptations in Xerophytes. Xerophytes are group of plants that survive in dry regions. They grow in deserts, dry hilly regions. They adapt themselves to dry and sandy or rocky soils having poor water content and extreme atmospheric conditions. Xerophytes can withstand drought, intense light, extreme temperature and strong wind pdf, 38.64 KB. pdf, 35.23 KB. Matching exercises covering the adaptations of xerophytes and hydrophytes. Tes paid licence How can I reuse this? Report this resource to let us know if it violates our terms and conditions. Our customer service team will review your report and will be in touch. £2.00. BUY NOW

What are Hydrophytes? Definition, Features & Types

Hydrophytes are aquatic plants that are especially suited for living in aquatic environments. In order to survive, a hydrophyte, also known as an aquatic macrophyte, must either be completely submerged in water, or in some cases be allowed to float on the surface of the water. Aquatic plants can usually be categorized into 4 main type: floating. plants show normal features with periderm on the surface, aerenchymatous cortex containing sclereids, normal endodermis, secretory pericycle, radially arranged xylem and phloem and extensively Anatomical adaptations Hydrophytes. Xerophytes Halophytes. In this article we will discuss about the anatomical features of xerophytes with the help of suitable diagrams. They grow in deserts or in very dry places; they may withstand a prolonged period of drought uninjured, for this purpose they have certain peculiar adaptations. The xerophytic plants have to guard against excessive evaporation of water; [ A Hydrophyte is a plant that lives in a environment that results in the plant having a high volume of water capible to it. This may be in a flooded plane or bog such as Reed. This can only be plants that live in water such as Water Lilly. Adaptation for Hydrophytic conditions. Water lillies are typical example of a hydrophytic plant

Aquatic Adaptation Notes, Videos, QA and Tests Grade 9

Live in marshes, swamps and aquatic regions Adaptive features : aeration tissue (lacunae) absence of sclerenchyma and underdeveloped xylem Submerged leaves lack stomata Floating leaves have stomata in the adaxial epidermal surface only Hydrophytes Lacunae * * * * * * * * * * * * * III. Amphibious hydrophytes. These are plants that are partly in water and partly in air. The aquatic part may be in shallow water or muddy sub-stratum. Morphological and anatomical features of these plants are different in parts that are in direct contact with water and the parts exposed to air Subsequently, one may also ask, what are the features of water lily? The most easily recognizable features of the water lily are its green leaves. Round, oval or heart-shaped, they float on the water or sit slightly above the water.They are attached at the center to the stalk, and most feature a split that makes them look much like they have an open mouth Question 7. SURVEY. 30 seconds. Q. Plant leaves of different species have features that allow them to survive in their particular environment. It's reasonable to suggest that. answer choices. water lilies have more stomata on the bottom of their leaves as water loss is negligible

The following adaptations. allow plants to survive in the hot desert environment: Small leaves - these ensure that less water is lost from the plant by transpiration because the leaf has a smaller. Morphological adaptations. Mesophytes do not have any specific morphological adaptations. They usually have broad, flat and green leaves; an extensive fibrous root system to absorb water; and the ability to develop perennating organs such as corms, rhizomes and bulbs to store food and water for use during drought what adaptations do hydrophytes have to overcome difficulties with transpiration? - many hydrophytes contain specialised structures at the tip of their leaves called hydathodes hydathoses are structures that release water droplets which may then evaporate from the leaf surfac 3 adaptive features of hydrophytes 18.2) Adaptive featuresAdaptive feature: is an inherited feature that helps an organism to survive and reproduce in it environment.Adaptive features: is the inherited functional features of an organism that increase its fitness.Fitness: is the probability of that organism surviving and reproducing in the environment in which it is found.Adaptations to arid.

Ecological Adaptations of Hydrophytes (PPT) Easy Biology

This upper surface often has a thick waxy cuticle to repel water and help to keep the stomata open and clear. Physiological adaptations Adaptations in metabolic features. Adaptation of Hydrophytes Hydrophytes - The plants which grow in water either partially or completely are known as aquatic plants or hydrophytes Xerophytes and Hydrophytes. The vent animals also possess other physiological adaptations in nutrition and respiration to cope with toxic hydrogen sulphide. Physiological adaptations Adaptations in metabolic features. Download the PPT of this Topic. Adaptations in external features This is because in hydrophytes, roots are not required to absorb neither water or minerals. The entire plant surface can absorb water and minerals. Unlike xerophytes, hydrophytes contain chloroplasts and can also absorb water and nutrients. Furthermore, the xylem is highly reduced in the vascular bundles of hydrophytes Ecological Adaptations of Hydrophytes (PPT) | easybiologyclass. Hydrophytes Plant adapted to live in extremely wet conditions. The biota of hot springs consists of a number of organisms hydrophytse on the water temperature. Anatomical adaptations Adaptations in internal features. Edexcel Biology AS Level, but also other exam boards

Anatomical Features of Hydrophytes (With Diagram) Botan

4 Hydrophytes are plants that show many adaptive features for life in aquatic habitats. Fig. 4.1 shows several species of hydrophyte growing in freshwater. Fig. 4.1 A student investigated the density of stomata on the leaves of two different species of freshwater hydrophyte. Table 4.1 shows the results. Table 4.1 species location of leave The stem and xylem adaptations in hydrophytes are not to enhance its abilities of transporting water and minerals around the plant, providing a structural support or to store water, but to absorb nutrients directly from the surrounding water and to be flexible enough to move with the surrounding water while providing enough support for the plant It is important that the leaves float in surface water plants and water-logging is a major problem for hydrophytes. Roots of Hydrophytes Hydrophytes have root systems that are not very developed or entirely absent from the plant. It has several important physiological properties. Water Lilies (Hydrophytes) • These plants actually live in water and require adaptations to cope with growing in.

Adaptation Of Hydrophytes & Xerophytes : Plantle

Adaptations that are commonly seen in hydrophytes: Floating leaves: the leaves are thin, flat and have large air spaces inside to give them buoyancy. This keeps them close to the surface of the water where there is more light for photosynthesis. Thin waterproof waxy cuticle: it is very thin as there is little need to prevent water loss Plant adaptations or resp onses to flooding and waterlogging (Tiner 1991, 1999). Some of these Some of these features are not exclusive to hydrophytes but may also occur in non-hydrophytes for. Photo by Laitr Keiows — Own work, CC BY-SA 3.0, via Wikipedia.The ribs give the giant water lily a rigid structure and form a multitude of air pockets that buoy the water lily

Hydrophytes Adaptations Pd

1. Give three adaptive features of water hyacinth suitable to aquatic life. 2. What are the features present in plants of xeric habitat for the prevention of loss of water? 3. What is the importance of succulent leaves and stem for a xerophytic plant? 4. Why is air stored between tissues in aquatic plants? Hydrophytes Adaptations 1. Buoyancy. Xerophytes have adapted numerous anatomical and physiological features to survive in desert conditions. Some conditions that desert plants need to ameliorate are water loss and storage, along with better water absorption methods. Desert plants overcome water loss with various specialized features such as altering stomata characteristics 18.2 Adaptive features. Define adaptive feature as an inherited feature that helps an organism to survive and reproduce in its environment; Interpret images or other information about a species to describe its adaptive features; Define adaptive feature as the inherited functional features of an organism that increase its fitnes Figure 3. Examples of some morphological and other adaptations may be used to recognize hydrophytes: (a) buttressed trunk and pneumatophores (knecs) of bald cyprcss grou.ing in wetlands subject to prolongcd inundation t:lay show signs Of buttressing; (b) prop toots of red mangrove {Rhizophow. (c) shallow root systcm of Oregon as 2 Mangrove trees are hydrophytes because they grow in water. Fig. 2.1 shows a young mangrove tree. Fig. 2.1 (a) An adaptive feature is a feature that increases the fitness of an organism. (i) Define the term fitness

Aerenchyma. Aerenchyma is a spongy tissue that forms spaces or air channels in the leaves, stems and roots of submerged and aquatic plants. The floating leaves are there due to this feature of aerenchyma only. The aquatic plants or hydrophytes do not have submerged leaves or a well developed phloem, So the correct answer is 'Aerenchyma.' Features. 1. Roots are branched, long and penetrate the soil to great depths e.g., the roots of Alfalfa plant maybe 130 feet long. Root of Asparagus are flesly and function for storage of water. 2. In general the leaves are highly reduced to decrease loss of water by transpi­ration e.g., Casuarina. The petiole is modified into phyllode in some. Several attributes appear to be general features of the vegetation of early successional environments ( Prach et al., 1997 ) and hydrophytes occurring at the land‐water interface (e.g. groups 8, 9, 10 and 11) exhibit many of the classic characteristics of terrestrial ruderals ( Rørslett, 1989)

The natural environment is an ever-changing feature of planet earth. The process of adaptation ensures that the species which adapts the most, survive. Read on to explore plant and animal adaptations across the wide ranges of landscapes Mesophytes are the largest group of terrestrial plants that live in a climate of a moderate to hot temperatures and soil that is not dry and is not too wet. Mesophytes are found in many places such as shaded forest areas or sunny meadows or fields. Most plants found in household gardens, parks, streets and general public areas are mesophytes What Are the Adaptations of a Lotus Plant?. A water plant, lotus (Nelumbo spp.) grows in the mud of lagoons, ponds, marshes and water-logged fields. It also works well in contained water gardens. Sacred lotus (Nelumbo nucifera) is a species native to the Philippines, Egypt, north Australia, the Volga River delta at the Caspian Sea and the. Adaptations of Hydrophytes ‣ Hydrophytes are plants that have adapted to living either partially or fully submerged in water. • Typical features of submerged hydrophytes, e.g. the water lily (Nymphaea alba), include: Large, thin, floating leaves Elongated petioles (leaf stalks) Reduced root system Aerial flowers Little or no waxy cuticl Adaptations of plants to extreme environments Desert plants. A cactus is adapted to life in a hot climate. Cacti are well adapted for survival in the desert. They have: Stems that can store water

What are the adaptive features for wind pollination inAdaptations of the Snowshoe Hare

Based on a study of helophytic and hydrophytic ferns, as well as literature data, adaptive strategies of their sporophytes are identified. A complex analysis of the photosynthetic apparatus of the plants is carried out at different levels of its organization: (a) fronds, (b) mesophyll cells, and (c) plastid apparatus. Among these species, there is a selection of plants characterized by various. Grigore M-N, Toma C, Zamfirache M-M, Boscaiu M, Olteanu Z, Cojocaru D (2012a) Ecological anatomy in halophytes with C 4 photosynthesis: discussing adaptative features in endangered ecosystems. Carp J Earth Environ Sci 7(2):13-21 Google Schola Define adaptive feature as the inherited functional features of an organism that increase its fitness Explain the adaptive features of hydrophytes and xerophytes to their environments Explain the adaptive features of hydrophytes and xerophytes to their environments. e) STRUGGLE FOR SURVIVAL. NATURAL SELECTION PART 1. Describe natural selection. Describe evolution as the change in adaptive features of a population over time as a result of natural selection

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